| Gene Symbol | LOC5570142 |
| Entrez Gene ID | 5570142 |
| Full Name | centrosomin |
| Synonyms | AAEL008110 |
| Gene Type | protein-coding |
| Organism | Aedes aegypti(yellow fever mosquito) |
- REAGENT SERVICES Hot!
-
PRODUCTS
-
Most Popular Reagents
-
Instruments
-
Antibodies
-
ELISA Kits
-
Protein Electrophoresis and Blotting
-
Protein and Antibody Purification
-
Recombinant Proteins
-
Molecular Biology
-
Stable Cell Lines
-
Cell Isolation and Activation
-
IVD Raw Materials
-
Therapy Applications
-
Resources
-
![AmMag™ Quatro Automated Plasmid Purification]()
AmMag™ Quatro automated plasmid purification
-
![Anti-Camelid VHH]()
MonoRab™ Anti-VHH Antibodies
-
![ELISA Kits]()
ELISA Kits
-
![Precast Gels]()
SurePAGE™ Precast Gels
-
![Quatro ProAb Automated Protein and Antibody Purification System]()
AmMag™ Quatro ProAb Automated Protein and Antibody Purification System
-
![Target Proteins]()
Target Proteins
-
![AmMag™ Quatro Automated Plasmid Purification]()
AmMag™ Quatro automated plasmid purification
-
![Stable Cell Lines]()
Stable Cell Lines
-
![Cell Isolation and Activation]()
Cell Isolation and Activation
-
![Quick
Order]()
Quick Order
-
![Quick
Order]()
Quick Order
- APPLICATIONS
- RESOURCES
- ABOUT US
LOC5570142 cDNA ORF clone, Aedes aegypti(yellow fever mosquito)
-
Gene
-
Clones
gRNAs
The following LOC5570142 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC5570142 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.
-
Reference Sequences (Refseq)
CloneID OAe126417 Clone ID Related Accession (Same CDS sequence) XM_021850616.1 Accession Version XM_021850616.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3489bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1500393600000 Organism Aedes aegypti(yellow fever mosquito) Product centrosomin isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035109.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Aedes aegypti Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481ATGAGTGCTT CCAACGTGGA GGAAGGAAGT AACCAGACCT GGGATGAAAC CAACCTGAGT
CAGGTGCGCG AGTGCTTGGC CACCTTCCGC GAGAGCATTG GAAGCCCTGG GCAACAAGAT
GCCACCATGG ATAATTCATA TACCATGGGC TTTCGGTCGC CGTCGATGAA CGCCCTGGCC
GGACAGTCCA GTCCTTGCCA GGGCCGCTCC CTGCGGGAAT ACGAGGAGCA GATGTCCGCC
CTGCGGAAGG AGAACTTCAA CCTCAAGCTG CGGATATACT TCCTGGAGGA GAATGCCGGC
ATCGGAGGGA ACACGAGCGG AGGTGGTCCG GGTGGTAACG GTGCCGGGCT CGGTCACGGA
TCGCCTACGG ATGGCACGGT TGCGCCGGAG AGTCTGTTCA AGCAGAACAT CGATTTGAAG
GTGGAAGTGG AGTCCCTCCG GAAGGACCTT CAAGAAAAGC AGGATCTTCT CTGCCAGGCG
GCCAAAGCGA TGGAGATGAT GGAGGAAAGC CAACGTAAGG CGGAACACCA CCATCGAGAA
GTGCTGAACG ACATGGAGCA CCGGTTGGAA ATGCTTCAGC AGGAAATCAA ACAGATGGAA
GCGGCTGATC GTCAGCATCA ACAGCAGGAA CAACATCACG GAAACAATAC GACGCGAAGT
GCGCTCAACG ACACCAATCT GCTCGACATC CTGGAGAAGC AGCACCTAGA GCTGAACGTA
GTCGATAAGC TGCAAGCGTT GGATATGGAG AACGTCATCC GACAGTGTCG GACCCAAAAC
GAAGAACTCT GGAGGCAGAT CAGCGATTTG AACAAGCAAC TGGAGGAGAA GGAACACAAG
CTGAACACGC TGGAGGTACA GCTGAGCGAG ATGCGGTACG AATGCGCCGA AATGAAGGAC
AAACTGGAGG AGAACGACCG TTCGACCTCG GATGCTGAGG TCCTGAGGCT CAAGAAAGAT
CTGTTCCAGG CAAAGTCGGA ACTGGCGGAG AAGCTGTGCC AGTTGGACGA CACCGAAGTG
AAGCTGAAGG AAAAAATGGC CGAGCTATCG AAGACAGCCA AGATGGTGGA GAAGCTGGTG
AAGACCATCA CCGAGCTGCA GATGGAAAAC GCCCGACTCA AGCGCAATTC GAGCCCCGAG
TTGAAACCCC CCGATCCTGT AAAGAAGATC GTCTCGGATC CTGGCAGTGC ACAACTCGAG
CAGCCCATCT TCGACCACAA CCAACAGATC GTGTCGCAGG AAGAATACGA TAGTCTGTGC
CAGAGGCTGA AAGACCTTCA AACTAAGAAC AACAGTCTCA TTCAGCAGCT CACCAGCAGT
TCCAACGACC GCAACGAGAA CATCATCATC AAACAGCTCA ACGAGGAGGT AATCCAGGCG
CGAGAAGAAG CGGAAAAGGC TCAGCGCTGG CGCAAGGAGT GCGTAGACCT GTGTGCCATC
TCAACAGCTC GGCTCGAAGA ATTGGCTGGC TTTTTGGATT CGTTGCTCAG AAACGACGAA
TTCAGTGGTA CGCTCTCGAT AGCCCGCCGA AAGGCCATCC GTAAGGCCGT CGATCGCAGC
TTGGACCTCT CGAGGAGTTT GAACATGTCC ATCTCGGTGA CCAGATTCTC GCTCCCGGAG
AACAGCTTTG TCAACCTTAG TAGCTTGACT GGGTTTTTGA ATGGCACCGA ACAGAGTCTC
CTGCTCGAAG AGGAGGCCAA TAAAGAGAAC ATCGGAAGCG CCGAGAAAGT GATTGCAACT
TTGAAGGCAG AGAATCGTGA ACTACGGGGA CAGTTGGAGA ACCGTGGAAG TGCCAAGAAG
AATCATTCGG AAGCCAGGAG AAAGCTGATT CCATTGATGC CAGAACCTGT ATCGGACTCG
GAGGCGTGGT CTGAACCTGA TCGGGATGTT TCCTTGGCAC GGATCGGGTT GGAAGAACGG
TCTTCCTTGA CGAATTCCGG TGGCAAAGGG AAACCCATTC CTCGAGCACA TGGGACAGTG
TTGCAAGAGT TCAGCTCTAC GTCCGAGAAC GAAGGCAACG TGAATCACTT GAAGAAGCAA
GGTGCTGAAG TAAAGCAGCT ACAGGAAGCG GTCCAGGAAA AGGACAGCAA GATCCTGGAA
ATCCAGACTC GAATGGTTGA CCTCGACAAT AAGTTGCAGG AGGAAAGAAT GAAGGCCTCT
AGAACACAAG TTGAATTGGA AAATACGCGA CATGTGAATC AGCGGCTAGA GAAGGAGAAA
AACGAACAAA CGAAGCGCCT CGAAGAACTA AACCGAGAAA TTCAACAAAA GGATGAACTC
ATCGAGAAGC TCAAGAAGGA TCGAGATCAA GCGTTCGTCG ATTTACGGGT GGCGCTCATG
AAGCACGACA GCCTTAAAGC GGAATACCAG GATTGTCAGC AGAAGCACAA GATTCAAATC
GATTCGCTTC TGGCACAAGA AAGGCAACGG CTGGAGGAGC TTCGTCAAGA TCTAACCGAG
TCTTTCAACA ATCAGTTGAA GGCCAAGCAG GCTTCGTTCG ATGCTAGTCT GGAGGAAAGA
TACATTTCCA AGAATATCTA TCTAGAGAAA GTGAAGGAAC TTGAAGAAGT TCACATCAGA
CTGGAGGATG CTCATCTCAA TCTAATGAAC ATGACAGAGA TTGAGGGCAA AATGAAACAG
CAGGTCACGG AAGCGGAACA ATCCGTGCAG AAAATGCGTA AAGCATTGGA TGATGCGACA
CTGCAAACTT CTAAAGCTGC GTTGGAGCGC ACGAAAGCAA TGAATGAAAA ACGTTTGCTA
GAAGACGAAC TGCAACATGT TAAGCAAGAC TTGGAAGCGG TGAAGGCTGA GAAGAATGAA
CTAAATGCAC GATTGGTGGA AGTGCAGACT AGGTTGCAAC AAGTGCAGCG CTCGCCAGCG
CAACGACTGA ACAGTTCTTC GGGTGCCGAA TGTTCAACGG CTTCCGGGTA CGCCTCGGAA
GAATTTCTGT CGGTGGCAAA TCGACATCCC AAACTCGAAC ACGGCTTGCG GGTGGAAAAC
TCATCTCCGG ATCTCGGCAT CGAAAGTGAC GCCGGGCGAC TGTCCAATCC GGAAACGAAT
CCAAGGACTT CCGCTGCGAC CGGTAGCGAG GGGGCGATGA GCCCGGCCAG ACCGCTACTT
AAGACGCTCG AGCTGACCAA GTCAATGAGC AACCTGCTGA TGGATCCGAA AGAGGACGCC
AAAACAGAGC TCAACTCGTC CGCTCAGGCC GCCGATGGCA AATCGGCGAT CCACGACTGT
GTCAAAATCG AGGCCGATTT CGCCGAACTG AAGCGTCGGT ACAAGCAAAC CCGTCGCCAC
CTGGAGCTGG CCTACGACAG TATTAAGTCG TCCAACAAGC GCAAGGAGCA GCTAGAACGG
GACATCAAGC AGCAAATCCA AAAGACCAAC GTCGTGCTCA AAACGGTCCG CACCAATATG
ACCAACGAGC TGGAGAAATC CGCATCCGGT GGGGCGCTTC CCCAAGCCGA AACCGGTCGC
AAAAGCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021706308.1 CDS 343..3831 Translation 
Target ORF information:
RefSeq Version XM_021850616.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti centrosomin (LOC5570142), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_021850616.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481ATGAGTGCTT CCAACGTGGA GGAAGGAAGT AACCAGACCT GGGATGAAAC CAACCTGAGT
CAGGTGCGCG AGTGCTTGGC CACCTTCCGC GAGAGCATTG GAAGCCCTGG GCAACAAGAT
GCCACCATGG ATAATTCATA TACCATGGGC TTTCGGTCGC CGTCGATGAA CGCCCTGGCC
GGACAGTCCA GTCCTTGCCA GGGCCGCTCC CTGCGGGAAT ACGAGGAGCA GATGTCCGCC
CTGCGGAAGG AGAACTTCAA CCTCAAGCTG CGGATATACT TCCTGGAGGA GAATGCCGGC
ATCGGAGGGA ACACGAGCGG AGGTGGTCCG GGTGGTAACG GTGCCGGGCT CGGTCACGGA
TCGCCTACGG ATGGCACGGT TGCGCCGGAG AGTCTGTTCA AGCAGAACAT CGATTTGAAG
GTGGAAGTGG AGTCCCTCCG GAAGGACCTT CAAGAAAAGC AGGATCTTCT CTGCCAGGCG
GCCAAAGCGA TGGAGATGAT GGAGGAAAGC CAACGTAAGG CGGAACACCA CCATCGAGAA
GTGCTGAACG ACATGGAGCA CCGGTTGGAA ATGCTTCAGC AGGAAATCAA ACAGATGGAA
GCGGCTGATC GTCAGCATCA ACAGCAGGAA CAACATCACG GAAACAATAC GACGCGAAGT
GCGCTCAACG ACACCAATCT GCTCGACATC CTGGAGAAGC AGCACCTAGA GCTGAACGTA
GTCGATAAGC TGCAAGCGTT GGATATGGAG AACGTCATCC GACAGTGTCG GACCCAAAAC
GAAGAACTCT GGAGGCAGAT CAGCGATTTG AACAAGCAAC TGGAGGAGAA GGAACACAAG
CTGAACACGC TGGAGGTACA GCTGAGCGAG ATGCGGTACG AATGCGCCGA AATGAAGGAC
AAACTGGAGG AGAACGACCG TTCGACCTCG GATGCTGAGG TCCTGAGGCT CAAGAAAGAT
CTGTTCCAGG CAAAGTCGGA ACTGGCGGAG AAGCTGTGCC AGTTGGACGA CACCGAAGTG
AAGCTGAAGG AAAAAATGGC CGAGCTATCG AAGACAGCCA AGATGGTGGA GAAGCTGGTG
AAGACCATCA CCGAGCTGCA GATGGAAAAC GCCCGACTCA AGCGCAATTC GAGCCCCGAG
TTGAAACCCC CCGATCCTGT AAAGAAGATC GTCTCGGATC CTGGCAGTGC ACAACTCGAG
CAGCCCATCT TCGACCACAA CCAACAGATC GTGTCGCAGG AAGAATACGA TAGTCTGTGC
CAGAGGCTGA AAGACCTTCA AACTAAGAAC AACAGTCTCA TTCAGCAGCT CACCAGCAGT
TCCAACGACC GCAACGAGAA CATCATCATC AAACAGCTCA ACGAGGAGGT AATCCAGGCG
CGAGAAGAAG CGGAAAAGGC TCAGCGCTGG CGCAAGGAGT GCGTAGACCT GTGTGCCATC
TCAACAGCTC GGCTCGAAGA ATTGGCTGGC TTTTTGGATT CGTTGCTCAG AAACGACGAA
TTCAGTGGTA CGCTCTCGAT AGCCCGCCGA AAGGCCATCC GTAAGGCCGT CGATCGCAGC
TTGGACCTCT CGAGGAGTTT GAACATGTCC ATCTCGGTGA CCAGATTCTC GCTCCCGGAG
AACAGCTTTG TCAACCTTAG TAGCTTGACT GGGTTTTTGA ATGGCACCGA ACAGAGTCTC
CTGCTCGAAG AGGAGGCCAA TAAAGAGAAC ATCGGAAGCG CCGAGAAAGT GATTGCAACT
TTGAAGGCAG AGAATCGTGA ACTACGGGGA CAGTTGGAGA ACCGTGGAAG TGCCAAGAAG
AATCATTCGG AAGCCAGGAG AAAGCTGATT CCATTGATGC CAGAACCTGT ATCGGACTCG
GAGGCGTGGT CTGAACCTGA TCGGGATGTT TCCTTGGCAC GGATCGGGTT GGAAGAACGG
TCTTCCTTGA CGAATTCCGG TGGCAAAGGG AAACCCATTC CTCGAGCACA TGGGACAGTG
TTGCAAGAGT TCAGCTCTAC GTCCGAGAAC GAAGGCAACG TGAATCACTT GAAGAAGCAA
GGTGCTGAAG TAAAGCAGCT ACAGGAAGCG GTCCAGGAAA AGGACAGCAA GATCCTGGAA
ATCCAGACTC GAATGGTTGA CCTCGACAAT AAGTTGCAGG AGGAAAGAAT GAAGGCCTCT
AGAACACAAG TTGAATTGGA AAATACGCGA CATGTGAATC AGCGGCTAGA GAAGGAGAAA
AACGAACAAA CGAAGCGCCT CGAAGAACTA AACCGAGAAA TTCAACAAAA GGATGAACTC
ATCGAGAAGC TCAAGAAGGA TCGAGATCAA GCGTTCGTCG ATTTACGGGT GGCGCTCATG
AAGCACGACA GCCTTAAAGC GGAATACCAG GATTGTCAGC AGAAGCACAA GATTCAAATC
GATTCGCTTC TGGCACAAGA AAGGCAACGG CTGGAGGAGC TTCGTCAAGA TCTAACCGAG
TCTTTCAACA ATCAGTTGAA GGCCAAGCAG GCTTCGTTCG ATGCTAGTCT GGAGGAAAGA
TACATTTCCA AGAATATCTA TCTAGAGAAA GTGAAGGAAC TTGAAGAAGT TCACATCAGA
CTGGAGGATG CTCATCTCAA TCTAATGAAC ATGACAGAGA TTGAGGGCAA AATGAAACAG
CAGGTCACGG AAGCGGAACA ATCCGTGCAG AAAATGCGTA AAGCATTGGA TGATGCGACA
CTGCAAACTT CTAAAGCTGC GTTGGAGCGC ACGAAAGCAA TGAATGAAAA ACGTTTGCTA
GAAGACGAAC TGCAACATGT TAAGCAAGAC TTGGAAGCGG TGAAGGCTGA GAAGAATGAA
CTAAATGCAC GATTGGTGGA AGTGCAGACT AGGTTGCAAC AAGTGCAGCG CTCGCCAGCG
CAACGACTGA ACAGTTCTTC GGGTGCCGAA TGTTCAACGG CTTCCGGGTA CGCCTCGGAA
GAATTTCTGT CGGTGGCAAA TCGACATCCC AAACTCGAAC ACGGCTTGCG GGTGGAAAAC
TCATCTCCGG ATCTCGGCAT CGAAAGTGAC GCCGGGCGAC TGTCCAATCC GGAAACGAAT
CCAAGGACTT CCGCTGCGAC CGGTAGCGAG GGGGCGATGA GCCCGGCCAG ACCGCTACTT
AAGACGCTCG AGCTGACCAA GTCAATGAGC AACCTGCTGA TGGATCCGAA AGAGGACGCC
AAAACAGAGC TCAACTCGTC CGCTCAGGCC GCCGATGGCA AATCGGCGAT CCACGACTGT
GTCAAAATCG AGGCCGATTT CGCCGAACTG AAGCGTCGGT ACAAGCAAAC CCGTCGCCAC
CTGGAGCTGG CCTACGACAG TATTAAGTCG TCCAACAAGC GCAAGGAGCA GCTAGAACGG
GACATCAAGC AGCAAATCCA AAAGACCAAC GTCGTGCTCA AAACGGTCCG CACCAATATG
ACCAACGAGC TGGAGAAATC CGCATCCGGT GGGGCGCTTC CCCAAGCCGA AACCGGTCGC
AAAAGCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe126418 Clone ID Related Accession (Same CDS sequence) XM_021850619.1 , XM_021850620.1 , XM_021850621.1 , XM_021850617.1 , XM_021850618.1 Accession Version XM_021850619.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3474bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1500393600000 Organism Aedes aegypti(yellow fever mosquito) Product centrosomin isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035109.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Aedes aegypti Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGTCCGGAA TTTTCAAATA TACTCCCAAT CGGGCGGCGG CCAGCACGCC AAACCGCCGG
TCGGCGTTCG GACTCGGATT CGGTGGAAGC CCTGGGCAAC AAGATGCCAC CATGGATAAT
TCATATACCA TGGGCTTTCG GTCGCCGTCG ATGAACGCCC TGGCCGGACA GTCCAGTCCT
TGCCAGGGCC GCTCCCTGCG GGAATACGAG GAGCAGATGT CCGCCCTGCG GAAGGAGAAC
TTCAACCTCA AGCTGCGGAT ATACTTCCTG GAGGAGAATG CCGGCATCGG AGGGAACACG
AGCGGAGGTG GTCCGGGTGG TAACGGTGCC GGGCTCGGTC ACGGATCGCC TACGGATGGC
ACGGTTGCGC CGGAGAGTCT GTTCAAGCAG AACATCGATT TGAAGGTGGA AGTGGAGTCC
CTCCGGAAGG ACCTTCAAGA AAAGCAGGAT CTTCTCTGCC AGGCGGCCAA AGCGATGGAG
ATGATGGAGG AAAGCCAACG TAAGGCGGAA CACCACCATC GAGAAGTGCT GAACGACATG
GAGCACCGGT TGGAAATGCT TCAGCAGGAA ATCAAACAGA TGGAAGCGGC TGATCGTCAG
CATCAACAGC AGGAACAACA TCACGGAAAC AATACGACGC GAAGTGCGCT CAACGACACC
AATCTGCTCG ACATCCTGGA GAAGCAGCAC CTAGAGCTGA ACGTAGTCGA TAAGCTGCAA
GCGTTGGATA TGGAGAACGT CATCCGACAG TGTCGGACCC AAAACGAAGA ACTCTGGAGG
CAGATCAGCG ATTTGAACAA GCAACTGGAG GAGAAGGAAC ACAAGCTGAA CACGCTGGAG
GTACAGCTGA GCGAGATGCG GTACGAATGC GCCGAAATGA AGGACAAACT GGAGGAGAAC
GACCGTTCGA CCTCGGATGC TGAGGTCCTG AGGCTCAAGA AAGATCTGTT CCAGGCAAAG
TCGGAACTGG CGGAGAAGCT GTGCCAGTTG GACGACACCG AAGTGAAGCT GAAGGAAAAA
ATGGCCGAGC TATCGAAGAC AGCCAAGATG GTGGAGAAGC TGGTGAAGAC CATCACCGAG
CTGCAGATGG AAAACGCCCG ACTCAAGCGC AATTCGAGCC CCGAGTTGAA ACCCCCCGAT
CCTGTAAAGA AGATCGTCTC GGATCCTGGC AGTGCACAAC TCGAGCAGCC CATCTTCGAC
CACAACCAAC AGATCGTGTC GCAGGAAGAA TACGATAGTC TGTGCCAGAG GCTGAAAGAC
CTTCAAACTA AGAACAACAG TCTCATTCAG CAGCTCACCA GCAGTTCCAA CGACCGCAAC
GAGAACATCA TCATCAAACA GCTCAACGAG GAGGTAATCC AGGCGCGAGA AGAAGCGGAA
AAGGCTCAGC GCTGGCGCAA GGAGTGCGTA GACCTGTGTG CCATCTCAAC AGCTCGGCTC
GAAGAATTGG CTGGCTTTTT GGATTCGTTG CTCAGAAACG ACGAATTCAG TGGTACGCTC
TCGATAGCCC GCCGAAAGGC CATCCGTAAG GCCGTCGATC GCAGCTTGGA CCTCTCGAGG
AGTTTGAACA TGTCCATCTC GGTGACCAGA TTCTCGCTCC CGGAGAACAG CTTTGTCAAC
CTTAGTAGCT TGACTGGGTT TTTGAATGGC ACCGAACAGA GTCTCCTGCT CGAAGAGGAG
GCCAATAAAG AGAACATCGG AAGCGCCGAG AAAGTGATTG CAACTTTGAA GGCAGAGAAT
CGTGAACTAC GGGGACAGTT GGAGAACCGT GGAAGTGCCA AGAAGAATCA TTCGGAAGCC
AGGAGAAAGC TGATTCCATT GATGCCAGAA CCTGTATCGG ACTCGGAGGC GTGGTCTGAA
CCTGATCGGG ATGTTTCCTT GGCACGGATC GGGTTGGAAG AACGGTCTTC CTTGACGAAT
TCCGGTGGCA AAGGGAAACC CATTCCTCGA GCACATGGGA CAGTGTTGCA AGAGTTCAGC
TCTACGTCCG AGAACGAAGG CAACGTGAAT CACTTGAAGA AGCAAGGTGC TGAAGTAAAG
CAGCTACAGG AAGCGGTCCA GGAAAAGGAC AGCAAGATCC TGGAAATCCA GACTCGAATG
GTTGACCTCG ACAATAAGTT GCAGGAGGAA AGAATGAAGG CCTCTAGAAC ACAAGTTGAA
TTGGAAAATA CGCGACATGT GAATCAGCGG CTAGAGAAGG AGAAAAACGA ACAAACGAAG
CGCCTCGAAG AACTAAACCG AGAAATTCAA CAAAAGGATG AACTCATCGA GAAGCTCAAG
AAGGATCGAG ATCAAGCGTT CGTCGATTTA CGGGTGGCGC TCATGAAGCA CGACAGCCTT
AAAGCGGAAT ACCAGGATTG TCAGCAGAAG CACAAGATTC AAATCGATTC GCTTCTGGCA
CAAGAAAGGC AACGGCTGGA GGAGCTTCGT CAAGATCTAA CCGAGTCTTT CAACAATCAG
TTGAAGGCCA AGCAGGCTTC GTTCGATGCT AGTCTGGAGG AAAGATACAT TTCCAAGAAT
ATCTATCTAG AGAAAGTGAA GGAACTTGAA GAAGTTCACA TCAGACTGGA GGATGCTCAT
CTCAATCTAA TGAACATGAC AGAGATTGAG GGCAAAATGA AACAGCAGGT CACGGAAGCG
GAACAATCCG TGCAGAAAAT GCGTAAAGCA TTGGATGATG CGACACTGCA AACTTCTAAA
GCTGCGTTGG AGCGCACGAA AGCAATGAAT GAAAAACGTT TGCTAGAAGA CGAACTGCAA
CATGTTAAGC AAGACTTGGA AGCGGTGAAG GCTGAGAAGA ATGAACTAAA TGCACGATTG
GTGGAAGTGC AGACTAGGTT GCAACAAGTG CAGCGCTCGC CAGCGCAACG ACTGAACAGT
TCTTCGGGTG CCGAATGTTC AACGGCTTCC GGGTACGCCT CGGAAGAATT TCTGTCGGTG
GCAAATCGAC ATCCCAAACT CGAACACGGC TTGCGGGTGG AAAACTCATC TCCGGATCTC
GGCATCGAAA GTGACGCCGG GCGACTGTCC AATCCGGAAA CGAATCCAAG GACTTCCGCT
GCGACCGGTA GCGAGGGGGC GATGAGCCCG GCCAGACCGC TACTTAAGAC GCTCGAGCTG
ACCAAGTCAA TGAGCAACCT GCTGATGGAT CCGAAAGAGG ACGCCAAAAC AGAGCTCAAC
TCGTCCGCTC AGGCCGCCGA TGGCAAATCG GCGATCCACG ACTGTGTCAA AATCGAGGCC
GATTTCGCCG AACTGAAGCG TCGGTACAAG CAAACCCGTC GCCACCTGGA GCTGGCCTAC
GACAGTATTA AGTCGTCCAA CAAGCGCAAG GAGCAGCTAG AACGGGACAT CAAGCAGCAA
ATCCAAAAGA CCAACGTCGT GCTCAAAACG GTCCGCACCA ATATGACCAA CGAGCTGGAG
AAATCCGCAT CCGGTGGGGC GCTTCCCCAA GCCGAAACCG GTCGCAAAAG CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021706311.1 CDS 558..4031 Translation
Target ORF information:
RefSeq Version XM_021850619.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti centrosomin (LOC5570142), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021850619.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGTCCGGAA TTTTCAAATA TACTCCCAAT CGGGCGGCGG CCAGCACGCC AAACCGCCGG
TCGGCGTTCG GACTCGGATT CGGTGGAAGC CCTGGGCAAC AAGATGCCAC CATGGATAAT
TCATATACCA TGGGCTTTCG GTCGCCGTCG ATGAACGCCC TGGCCGGACA GTCCAGTCCT
TGCCAGGGCC GCTCCCTGCG GGAATACGAG GAGCAGATGT CCGCCCTGCG GAAGGAGAAC
TTCAACCTCA AGCTGCGGAT ATACTTCCTG GAGGAGAATG CCGGCATCGG AGGGAACACG
AGCGGAGGTG GTCCGGGTGG TAACGGTGCC GGGCTCGGTC ACGGATCGCC TACGGATGGC
ACGGTTGCGC CGGAGAGTCT GTTCAAGCAG AACATCGATT TGAAGGTGGA AGTGGAGTCC
CTCCGGAAGG ACCTTCAAGA AAAGCAGGAT CTTCTCTGCC AGGCGGCCAA AGCGATGGAG
ATGATGGAGG AAAGCCAACG TAAGGCGGAA CACCACCATC GAGAAGTGCT GAACGACATG
GAGCACCGGT TGGAAATGCT TCAGCAGGAA ATCAAACAGA TGGAAGCGGC TGATCGTCAG
CATCAACAGC AGGAACAACA TCACGGAAAC AATACGACGC GAAGTGCGCT CAACGACACC
AATCTGCTCG ACATCCTGGA GAAGCAGCAC CTAGAGCTGA ACGTAGTCGA TAAGCTGCAA
GCGTTGGATA TGGAGAACGT CATCCGACAG TGTCGGACCC AAAACGAAGA ACTCTGGAGG
CAGATCAGCG ATTTGAACAA GCAACTGGAG GAGAAGGAAC ACAAGCTGAA CACGCTGGAG
GTACAGCTGA GCGAGATGCG GTACGAATGC GCCGAAATGA AGGACAAACT GGAGGAGAAC
GACCGTTCGA CCTCGGATGC TGAGGTCCTG AGGCTCAAGA AAGATCTGTT CCAGGCAAAG
TCGGAACTGG CGGAGAAGCT GTGCCAGTTG GACGACACCG AAGTGAAGCT GAAGGAAAAA
ATGGCCGAGC TATCGAAGAC AGCCAAGATG GTGGAGAAGC TGGTGAAGAC CATCACCGAG
CTGCAGATGG AAAACGCCCG ACTCAAGCGC AATTCGAGCC CCGAGTTGAA ACCCCCCGAT
CCTGTAAAGA AGATCGTCTC GGATCCTGGC AGTGCACAAC TCGAGCAGCC CATCTTCGAC
CACAACCAAC AGATCGTGTC GCAGGAAGAA TACGATAGTC TGTGCCAGAG GCTGAAAGAC
CTTCAAACTA AGAACAACAG TCTCATTCAG CAGCTCACCA GCAGTTCCAA CGACCGCAAC
GAGAACATCA TCATCAAACA GCTCAACGAG GAGGTAATCC AGGCGCGAGA AGAAGCGGAA
AAGGCTCAGC GCTGGCGCAA GGAGTGCGTA GACCTGTGTG CCATCTCAAC AGCTCGGCTC
GAAGAATTGG CTGGCTTTTT GGATTCGTTG CTCAGAAACG ACGAATTCAG TGGTACGCTC
TCGATAGCCC GCCGAAAGGC CATCCGTAAG GCCGTCGATC GCAGCTTGGA CCTCTCGAGG
AGTTTGAACA TGTCCATCTC GGTGACCAGA TTCTCGCTCC CGGAGAACAG CTTTGTCAAC
CTTAGTAGCT TGACTGGGTT TTTGAATGGC ACCGAACAGA GTCTCCTGCT CGAAGAGGAG
GCCAATAAAG AGAACATCGG AAGCGCCGAG AAAGTGATTG CAACTTTGAA GGCAGAGAAT
CGTGAACTAC GGGGACAGTT GGAGAACCGT GGAAGTGCCA AGAAGAATCA TTCGGAAGCC
AGGAGAAAGC TGATTCCATT GATGCCAGAA CCTGTATCGG ACTCGGAGGC GTGGTCTGAA
CCTGATCGGG ATGTTTCCTT GGCACGGATC GGGTTGGAAG AACGGTCTTC CTTGACGAAT
TCCGGTGGCA AAGGGAAACC CATTCCTCGA GCACATGGGA CAGTGTTGCA AGAGTTCAGC
TCTACGTCCG AGAACGAAGG CAACGTGAAT CACTTGAAGA AGCAAGGTGC TGAAGTAAAG
CAGCTACAGG AAGCGGTCCA GGAAAAGGAC AGCAAGATCC TGGAAATCCA GACTCGAATG
GTTGACCTCG ACAATAAGTT GCAGGAGGAA AGAATGAAGG CCTCTAGAAC ACAAGTTGAA
TTGGAAAATA CGCGACATGT GAATCAGCGG CTAGAGAAGG AGAAAAACGA ACAAACGAAG
CGCCTCGAAG AACTAAACCG AGAAATTCAA CAAAAGGATG AACTCATCGA GAAGCTCAAG
AAGGATCGAG ATCAAGCGTT CGTCGATTTA CGGGTGGCGC TCATGAAGCA CGACAGCCTT
AAAGCGGAAT ACCAGGATTG TCAGCAGAAG CACAAGATTC AAATCGATTC GCTTCTGGCA
CAAGAAAGGC AACGGCTGGA GGAGCTTCGT CAAGATCTAA CCGAGTCTTT CAACAATCAG
TTGAAGGCCA AGCAGGCTTC GTTCGATGCT AGTCTGGAGG AAAGATACAT TTCCAAGAAT
ATCTATCTAG AGAAAGTGAA GGAACTTGAA GAAGTTCACA TCAGACTGGA GGATGCTCAT
CTCAATCTAA TGAACATGAC AGAGATTGAG GGCAAAATGA AACAGCAGGT CACGGAAGCG
GAACAATCCG TGCAGAAAAT GCGTAAAGCA TTGGATGATG CGACACTGCA AACTTCTAAA
GCTGCGTTGG AGCGCACGAA AGCAATGAAT GAAAAACGTT TGCTAGAAGA CGAACTGCAA
CATGTTAAGC AAGACTTGGA AGCGGTGAAG GCTGAGAAGA ATGAACTAAA TGCACGATTG
GTGGAAGTGC AGACTAGGTT GCAACAAGTG CAGCGCTCGC CAGCGCAACG ACTGAACAGT
TCTTCGGGTG CCGAATGTTC AACGGCTTCC GGGTACGCCT CGGAAGAATT TCTGTCGGTG
GCAAATCGAC ATCCCAAACT CGAACACGGC TTGCGGGTGG AAAACTCATC TCCGGATCTC
GGCATCGAAA GTGACGCCGG GCGACTGTCC AATCCGGAAA CGAATCCAAG GACTTCCGCT
GCGACCGGTA GCGAGGGGGC GATGAGCCCG GCCAGACCGC TACTTAAGAC GCTCGAGCTG
ACCAAGTCAA TGAGCAACCT GCTGATGGAT CCGAAAGAGG ACGCCAAAAC AGAGCTCAAC
TCGTCCGCTC AGGCCGCCGA TGGCAAATCG GCGATCCACG ACTGTGTCAA AATCGAGGCC
GATTTCGCCG AACTGAAGCG TCGGTACAAG CAAACCCGTC GCCACCTGGA GCTGGCCTAC
GACAGTATTA AGTCGTCCAA CAAGCGCAAG GAGCAGCTAG AACGGGACAT CAAGCAGCAA
ATCCAAAAGA CCAACGTCGT GCTCAAAACG GTCCGCACCA ATATGACCAA CGAGCTGGAG
AAATCCGCAT CCGGTGGGGC GCTTCCCCAA GCCGAAACCG GTCGCAAAAG CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe126418 Clone ID Related Accession (Same CDS sequence) XM_021850619.1 , XM_021850620.1 , XM_021850621.1 , XM_021850617.1 , XM_021850618.1 Accession Version XM_021850620.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3474bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1500393600000 Organism Aedes aegypti(yellow fever mosquito) Product centrosomin isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035109.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Aedes aegypti Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGTCCGGAA TTTTCAAATA TACTCCCAAT CGGGCGGCGG CCAGCACGCC AAACCGCCGG
TCGGCGTTCG GACTCGGATT CGGTGGAAGC CCTGGGCAAC AAGATGCCAC CATGGATAAT
TCATATACCA TGGGCTTTCG GTCGCCGTCG ATGAACGCCC TGGCCGGACA GTCCAGTCCT
TGCCAGGGCC GCTCCCTGCG GGAATACGAG GAGCAGATGT CCGCCCTGCG GAAGGAGAAC
TTCAACCTCA AGCTGCGGAT ATACTTCCTG GAGGAGAATG CCGGCATCGG AGGGAACACG
AGCGGAGGTG GTCCGGGTGG TAACGGTGCC GGGCTCGGTC ACGGATCGCC TACGGATGGC
ACGGTTGCGC CGGAGAGTCT GTTCAAGCAG AACATCGATT TGAAGGTGGA AGTGGAGTCC
CTCCGGAAGG ACCTTCAAGA AAAGCAGGAT CTTCTCTGCC AGGCGGCCAA AGCGATGGAG
ATGATGGAGG AAAGCCAACG TAAGGCGGAA CACCACCATC GAGAAGTGCT GAACGACATG
GAGCACCGGT TGGAAATGCT TCAGCAGGAA ATCAAACAGA TGGAAGCGGC TGATCGTCAG
CATCAACAGC AGGAACAACA TCACGGAAAC AATACGACGC GAAGTGCGCT CAACGACACC
AATCTGCTCG ACATCCTGGA GAAGCAGCAC CTAGAGCTGA ACGTAGTCGA TAAGCTGCAA
GCGTTGGATA TGGAGAACGT CATCCGACAG TGTCGGACCC AAAACGAAGA ACTCTGGAGG
CAGATCAGCG ATTTGAACAA GCAACTGGAG GAGAAGGAAC ACAAGCTGAA CACGCTGGAG
GTACAGCTGA GCGAGATGCG GTACGAATGC GCCGAAATGA AGGACAAACT GGAGGAGAAC
GACCGTTCGA CCTCGGATGC TGAGGTCCTG AGGCTCAAGA AAGATCTGTT CCAGGCAAAG
TCGGAACTGG CGGAGAAGCT GTGCCAGTTG GACGACACCG AAGTGAAGCT GAAGGAAAAA
ATGGCCGAGC TATCGAAGAC AGCCAAGATG GTGGAGAAGC TGGTGAAGAC CATCACCGAG
CTGCAGATGG AAAACGCCCG ACTCAAGCGC AATTCGAGCC CCGAGTTGAA ACCCCCCGAT
CCTGTAAAGA AGATCGTCTC GGATCCTGGC AGTGCACAAC TCGAGCAGCC CATCTTCGAC
CACAACCAAC AGATCGTGTC GCAGGAAGAA TACGATAGTC TGTGCCAGAG GCTGAAAGAC
CTTCAAACTA AGAACAACAG TCTCATTCAG CAGCTCACCA GCAGTTCCAA CGACCGCAAC
GAGAACATCA TCATCAAACA GCTCAACGAG GAGGTAATCC AGGCGCGAGA AGAAGCGGAA
AAGGCTCAGC GCTGGCGCAA GGAGTGCGTA GACCTGTGTG CCATCTCAAC AGCTCGGCTC
GAAGAATTGG CTGGCTTTTT GGATTCGTTG CTCAGAAACG ACGAATTCAG TGGTACGCTC
TCGATAGCCC GCCGAAAGGC CATCCGTAAG GCCGTCGATC GCAGCTTGGA CCTCTCGAGG
AGTTTGAACA TGTCCATCTC GGTGACCAGA TTCTCGCTCC CGGAGAACAG CTTTGTCAAC
CTTAGTAGCT TGACTGGGTT TTTGAATGGC ACCGAACAGA GTCTCCTGCT CGAAGAGGAG
GCCAATAAAG AGAACATCGG AAGCGCCGAG AAAGTGATTG CAACTTTGAA GGCAGAGAAT
CGTGAACTAC GGGGACAGTT GGAGAACCGT GGAAGTGCCA AGAAGAATCA TTCGGAAGCC
AGGAGAAAGC TGATTCCATT GATGCCAGAA CCTGTATCGG ACTCGGAGGC GTGGTCTGAA
CCTGATCGGG ATGTTTCCTT GGCACGGATC GGGTTGGAAG AACGGTCTTC CTTGACGAAT
TCCGGTGGCA AAGGGAAACC CATTCCTCGA GCACATGGGA CAGTGTTGCA AGAGTTCAGC
TCTACGTCCG AGAACGAAGG CAACGTGAAT CACTTGAAGA AGCAAGGTGC TGAAGTAAAG
CAGCTACAGG AAGCGGTCCA GGAAAAGGAC AGCAAGATCC TGGAAATCCA GACTCGAATG
GTTGACCTCG ACAATAAGTT GCAGGAGGAA AGAATGAAGG CCTCTAGAAC ACAAGTTGAA
TTGGAAAATA CGCGACATGT GAATCAGCGG CTAGAGAAGG AGAAAAACGA ACAAACGAAG
CGCCTCGAAG AACTAAACCG AGAAATTCAA CAAAAGGATG AACTCATCGA GAAGCTCAAG
AAGGATCGAG ATCAAGCGTT CGTCGATTTA CGGGTGGCGC TCATGAAGCA CGACAGCCTT
AAAGCGGAAT ACCAGGATTG TCAGCAGAAG CACAAGATTC AAATCGATTC GCTTCTGGCA
CAAGAAAGGC AACGGCTGGA GGAGCTTCGT CAAGATCTAA CCGAGTCTTT CAACAATCAG
TTGAAGGCCA AGCAGGCTTC GTTCGATGCT AGTCTGGAGG AAAGATACAT TTCCAAGAAT
ATCTATCTAG AGAAAGTGAA GGAACTTGAA GAAGTTCACA TCAGACTGGA GGATGCTCAT
CTCAATCTAA TGAACATGAC AGAGATTGAG GGCAAAATGA AACAGCAGGT CACGGAAGCG
GAACAATCCG TGCAGAAAAT GCGTAAAGCA TTGGATGATG CGACACTGCA AACTTCTAAA
GCTGCGTTGG AGCGCACGAA AGCAATGAAT GAAAAACGTT TGCTAGAAGA CGAACTGCAA
CATGTTAAGC AAGACTTGGA AGCGGTGAAG GCTGAGAAGA ATGAACTAAA TGCACGATTG
GTGGAAGTGC AGACTAGGTT GCAACAAGTG CAGCGCTCGC CAGCGCAACG ACTGAACAGT
TCTTCGGGTG CCGAATGTTC AACGGCTTCC GGGTACGCCT CGGAAGAATT TCTGTCGGTG
GCAAATCGAC ATCCCAAACT CGAACACGGC TTGCGGGTGG AAAACTCATC TCCGGATCTC
GGCATCGAAA GTGACGCCGG GCGACTGTCC AATCCGGAAA CGAATCCAAG GACTTCCGCT
GCGACCGGTA GCGAGGGGGC GATGAGCCCG GCCAGACCGC TACTTAAGAC GCTCGAGCTG
ACCAAGTCAA TGAGCAACCT GCTGATGGAT CCGAAAGAGG ACGCCAAAAC AGAGCTCAAC
TCGTCCGCTC AGGCCGCCGA TGGCAAATCG GCGATCCACG ACTGTGTCAA AATCGAGGCC
GATTTCGCCG AACTGAAGCG TCGGTACAAG CAAACCCGTC GCCACCTGGA GCTGGCCTAC
GACAGTATTA AGTCGTCCAA CAAGCGCAAG GAGCAGCTAG AACGGGACAT CAAGCAGCAA
ATCCAAAAGA CCAACGTCGT GCTCAAAACG GTCCGCACCA ATATGACCAA CGAGCTGGAG
AAATCCGCAT CCGGTGGGGC GCTTCCCCAA GCCGAAACCG GTCGCAAAAG CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021706312.1 CDS 570..4043 Translation
Target ORF information:
RefSeq Version XM_021850620.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti centrosomin (LOC5570142), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021850620.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGTCCGGAA TTTTCAAATA TACTCCCAAT CGGGCGGCGG CCAGCACGCC AAACCGCCGG
TCGGCGTTCG GACTCGGATT CGGTGGAAGC CCTGGGCAAC AAGATGCCAC CATGGATAAT
TCATATACCA TGGGCTTTCG GTCGCCGTCG ATGAACGCCC TGGCCGGACA GTCCAGTCCT
TGCCAGGGCC GCTCCCTGCG GGAATACGAG GAGCAGATGT CCGCCCTGCG GAAGGAGAAC
TTCAACCTCA AGCTGCGGAT ATACTTCCTG GAGGAGAATG CCGGCATCGG AGGGAACACG
AGCGGAGGTG GTCCGGGTGG TAACGGTGCC GGGCTCGGTC ACGGATCGCC TACGGATGGC
ACGGTTGCGC CGGAGAGTCT GTTCAAGCAG AACATCGATT TGAAGGTGGA AGTGGAGTCC
CTCCGGAAGG ACCTTCAAGA AAAGCAGGAT CTTCTCTGCC AGGCGGCCAA AGCGATGGAG
ATGATGGAGG AAAGCCAACG TAAGGCGGAA CACCACCATC GAGAAGTGCT GAACGACATG
GAGCACCGGT TGGAAATGCT TCAGCAGGAA ATCAAACAGA TGGAAGCGGC TGATCGTCAG
CATCAACAGC AGGAACAACA TCACGGAAAC AATACGACGC GAAGTGCGCT CAACGACACC
AATCTGCTCG ACATCCTGGA GAAGCAGCAC CTAGAGCTGA ACGTAGTCGA TAAGCTGCAA
GCGTTGGATA TGGAGAACGT CATCCGACAG TGTCGGACCC AAAACGAAGA ACTCTGGAGG
CAGATCAGCG ATTTGAACAA GCAACTGGAG GAGAAGGAAC ACAAGCTGAA CACGCTGGAG
GTACAGCTGA GCGAGATGCG GTACGAATGC GCCGAAATGA AGGACAAACT GGAGGAGAAC
GACCGTTCGA CCTCGGATGC TGAGGTCCTG AGGCTCAAGA AAGATCTGTT CCAGGCAAAG
TCGGAACTGG CGGAGAAGCT GTGCCAGTTG GACGACACCG AAGTGAAGCT GAAGGAAAAA
ATGGCCGAGC TATCGAAGAC AGCCAAGATG GTGGAGAAGC TGGTGAAGAC CATCACCGAG
CTGCAGATGG AAAACGCCCG ACTCAAGCGC AATTCGAGCC CCGAGTTGAA ACCCCCCGAT
CCTGTAAAGA AGATCGTCTC GGATCCTGGC AGTGCACAAC TCGAGCAGCC CATCTTCGAC
CACAACCAAC AGATCGTGTC GCAGGAAGAA TACGATAGTC TGTGCCAGAG GCTGAAAGAC
CTTCAAACTA AGAACAACAG TCTCATTCAG CAGCTCACCA GCAGTTCCAA CGACCGCAAC
GAGAACATCA TCATCAAACA GCTCAACGAG GAGGTAATCC AGGCGCGAGA AGAAGCGGAA
AAGGCTCAGC GCTGGCGCAA GGAGTGCGTA GACCTGTGTG CCATCTCAAC AGCTCGGCTC
GAAGAATTGG CTGGCTTTTT GGATTCGTTG CTCAGAAACG ACGAATTCAG TGGTACGCTC
TCGATAGCCC GCCGAAAGGC CATCCGTAAG GCCGTCGATC GCAGCTTGGA CCTCTCGAGG
AGTTTGAACA TGTCCATCTC GGTGACCAGA TTCTCGCTCC CGGAGAACAG CTTTGTCAAC
CTTAGTAGCT TGACTGGGTT TTTGAATGGC ACCGAACAGA GTCTCCTGCT CGAAGAGGAG
GCCAATAAAG AGAACATCGG AAGCGCCGAG AAAGTGATTG CAACTTTGAA GGCAGAGAAT
CGTGAACTAC GGGGACAGTT GGAGAACCGT GGAAGTGCCA AGAAGAATCA TTCGGAAGCC
AGGAGAAAGC TGATTCCATT GATGCCAGAA CCTGTATCGG ACTCGGAGGC GTGGTCTGAA
CCTGATCGGG ATGTTTCCTT GGCACGGATC GGGTTGGAAG AACGGTCTTC CTTGACGAAT
TCCGGTGGCA AAGGGAAACC CATTCCTCGA GCACATGGGA CAGTGTTGCA AGAGTTCAGC
TCTACGTCCG AGAACGAAGG CAACGTGAAT CACTTGAAGA AGCAAGGTGC TGAAGTAAAG
CAGCTACAGG AAGCGGTCCA GGAAAAGGAC AGCAAGATCC TGGAAATCCA GACTCGAATG
GTTGACCTCG ACAATAAGTT GCAGGAGGAA AGAATGAAGG CCTCTAGAAC ACAAGTTGAA
TTGGAAAATA CGCGACATGT GAATCAGCGG CTAGAGAAGG AGAAAAACGA ACAAACGAAG
CGCCTCGAAG AACTAAACCG AGAAATTCAA CAAAAGGATG AACTCATCGA GAAGCTCAAG
AAGGATCGAG ATCAAGCGTT CGTCGATTTA CGGGTGGCGC TCATGAAGCA CGACAGCCTT
AAAGCGGAAT ACCAGGATTG TCAGCAGAAG CACAAGATTC AAATCGATTC GCTTCTGGCA
CAAGAAAGGC AACGGCTGGA GGAGCTTCGT CAAGATCTAA CCGAGTCTTT CAACAATCAG
TTGAAGGCCA AGCAGGCTTC GTTCGATGCT AGTCTGGAGG AAAGATACAT TTCCAAGAAT
ATCTATCTAG AGAAAGTGAA GGAACTTGAA GAAGTTCACA TCAGACTGGA GGATGCTCAT
CTCAATCTAA TGAACATGAC AGAGATTGAG GGCAAAATGA AACAGCAGGT CACGGAAGCG
GAACAATCCG TGCAGAAAAT GCGTAAAGCA TTGGATGATG CGACACTGCA AACTTCTAAA
GCTGCGTTGG AGCGCACGAA AGCAATGAAT GAAAAACGTT TGCTAGAAGA CGAACTGCAA
CATGTTAAGC AAGACTTGGA AGCGGTGAAG GCTGAGAAGA ATGAACTAAA TGCACGATTG
GTGGAAGTGC AGACTAGGTT GCAACAAGTG CAGCGCTCGC CAGCGCAACG ACTGAACAGT
TCTTCGGGTG CCGAATGTTC AACGGCTTCC GGGTACGCCT CGGAAGAATT TCTGTCGGTG
GCAAATCGAC ATCCCAAACT CGAACACGGC TTGCGGGTGG AAAACTCATC TCCGGATCTC
GGCATCGAAA GTGACGCCGG GCGACTGTCC AATCCGGAAA CGAATCCAAG GACTTCCGCT
GCGACCGGTA GCGAGGGGGC GATGAGCCCG GCCAGACCGC TACTTAAGAC GCTCGAGCTG
ACCAAGTCAA TGAGCAACCT GCTGATGGAT CCGAAAGAGG ACGCCAAAAC AGAGCTCAAC
TCGTCCGCTC AGGCCGCCGA TGGCAAATCG GCGATCCACG ACTGTGTCAA AATCGAGGCC
GATTTCGCCG AACTGAAGCG TCGGTACAAG CAAACCCGTC GCCACCTGGA GCTGGCCTAC
GACAGTATTA AGTCGTCCAA CAAGCGCAAG GAGCAGCTAG AACGGGACAT CAAGCAGCAA
ATCCAAAAGA CCAACGTCGT GCTCAAAACG GTCCGCACCA ATATGACCAA CGAGCTGGAG
AAATCCGCAT CCGGTGGGGC GCTTCCCCAA GCCGAAACCG GTCGCAAAAG CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe126418 Clone ID Related Accession (Same CDS sequence) XM_021850619.1 , XM_021850620.1 , XM_021850621.1 , XM_021850617.1 , XM_021850618.1 Accession Version XM_021850621.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3474bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1500393600000 Organism Aedes aegypti(yellow fever mosquito) Product centrosomin isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035109.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Aedes aegypti Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGTCCGGAA TTTTCAAATA TACTCCCAAT CGGGCGGCGG CCAGCACGCC AAACCGCCGG
TCGGCGTTCG GACTCGGATT CGGTGGAAGC CCTGGGCAAC AAGATGCCAC CATGGATAAT
TCATATACCA TGGGCTTTCG GTCGCCGTCG ATGAACGCCC TGGCCGGACA GTCCAGTCCT
TGCCAGGGCC GCTCCCTGCG GGAATACGAG GAGCAGATGT CCGCCCTGCG GAAGGAGAAC
TTCAACCTCA AGCTGCGGAT ATACTTCCTG GAGGAGAATG CCGGCATCGG AGGGAACACG
AGCGGAGGTG GTCCGGGTGG TAACGGTGCC GGGCTCGGTC ACGGATCGCC TACGGATGGC
ACGGTTGCGC CGGAGAGTCT GTTCAAGCAG AACATCGATT TGAAGGTGGA AGTGGAGTCC
CTCCGGAAGG ACCTTCAAGA AAAGCAGGAT CTTCTCTGCC AGGCGGCCAA AGCGATGGAG
ATGATGGAGG AAAGCCAACG TAAGGCGGAA CACCACCATC GAGAAGTGCT GAACGACATG
GAGCACCGGT TGGAAATGCT TCAGCAGGAA ATCAAACAGA TGGAAGCGGC TGATCGTCAG
CATCAACAGC AGGAACAACA TCACGGAAAC AATACGACGC GAAGTGCGCT CAACGACACC
AATCTGCTCG ACATCCTGGA GAAGCAGCAC CTAGAGCTGA ACGTAGTCGA TAAGCTGCAA
GCGTTGGATA TGGAGAACGT CATCCGACAG TGTCGGACCC AAAACGAAGA ACTCTGGAGG
CAGATCAGCG ATTTGAACAA GCAACTGGAG GAGAAGGAAC ACAAGCTGAA CACGCTGGAG
GTACAGCTGA GCGAGATGCG GTACGAATGC GCCGAAATGA AGGACAAACT GGAGGAGAAC
GACCGTTCGA CCTCGGATGC TGAGGTCCTG AGGCTCAAGA AAGATCTGTT CCAGGCAAAG
TCGGAACTGG CGGAGAAGCT GTGCCAGTTG GACGACACCG AAGTGAAGCT GAAGGAAAAA
ATGGCCGAGC TATCGAAGAC AGCCAAGATG GTGGAGAAGC TGGTGAAGAC CATCACCGAG
CTGCAGATGG AAAACGCCCG ACTCAAGCGC AATTCGAGCC CCGAGTTGAA ACCCCCCGAT
CCTGTAAAGA AGATCGTCTC GGATCCTGGC AGTGCACAAC TCGAGCAGCC CATCTTCGAC
CACAACCAAC AGATCGTGTC GCAGGAAGAA TACGATAGTC TGTGCCAGAG GCTGAAAGAC
CTTCAAACTA AGAACAACAG TCTCATTCAG CAGCTCACCA GCAGTTCCAA CGACCGCAAC
GAGAACATCA TCATCAAACA GCTCAACGAG GAGGTAATCC AGGCGCGAGA AGAAGCGGAA
AAGGCTCAGC GCTGGCGCAA GGAGTGCGTA GACCTGTGTG CCATCTCAAC AGCTCGGCTC
GAAGAATTGG CTGGCTTTTT GGATTCGTTG CTCAGAAACG ACGAATTCAG TGGTACGCTC
TCGATAGCCC GCCGAAAGGC CATCCGTAAG GCCGTCGATC GCAGCTTGGA CCTCTCGAGG
AGTTTGAACA TGTCCATCTC GGTGACCAGA TTCTCGCTCC CGGAGAACAG CTTTGTCAAC
CTTAGTAGCT TGACTGGGTT TTTGAATGGC ACCGAACAGA GTCTCCTGCT CGAAGAGGAG
GCCAATAAAG AGAACATCGG AAGCGCCGAG AAAGTGATTG CAACTTTGAA GGCAGAGAAT
CGTGAACTAC GGGGACAGTT GGAGAACCGT GGAAGTGCCA AGAAGAATCA TTCGGAAGCC
AGGAGAAAGC TGATTCCATT GATGCCAGAA CCTGTATCGG ACTCGGAGGC GTGGTCTGAA
CCTGATCGGG ATGTTTCCTT GGCACGGATC GGGTTGGAAG AACGGTCTTC CTTGACGAAT
TCCGGTGGCA AAGGGAAACC CATTCCTCGA GCACATGGGA CAGTGTTGCA AGAGTTCAGC
TCTACGTCCG AGAACGAAGG CAACGTGAAT CACTTGAAGA AGCAAGGTGC TGAAGTAAAG
CAGCTACAGG AAGCGGTCCA GGAAAAGGAC AGCAAGATCC TGGAAATCCA GACTCGAATG
GTTGACCTCG ACAATAAGTT GCAGGAGGAA AGAATGAAGG CCTCTAGAAC ACAAGTTGAA
TTGGAAAATA CGCGACATGT GAATCAGCGG CTAGAGAAGG AGAAAAACGA ACAAACGAAG
CGCCTCGAAG AACTAAACCG AGAAATTCAA CAAAAGGATG AACTCATCGA GAAGCTCAAG
AAGGATCGAG ATCAAGCGTT CGTCGATTTA CGGGTGGCGC TCATGAAGCA CGACAGCCTT
AAAGCGGAAT ACCAGGATTG TCAGCAGAAG CACAAGATTC AAATCGATTC GCTTCTGGCA
CAAGAAAGGC AACGGCTGGA GGAGCTTCGT CAAGATCTAA CCGAGTCTTT CAACAATCAG
TTGAAGGCCA AGCAGGCTTC GTTCGATGCT AGTCTGGAGG AAAGATACAT TTCCAAGAAT
ATCTATCTAG AGAAAGTGAA GGAACTTGAA GAAGTTCACA TCAGACTGGA GGATGCTCAT
CTCAATCTAA TGAACATGAC AGAGATTGAG GGCAAAATGA AACAGCAGGT CACGGAAGCG
GAACAATCCG TGCAGAAAAT GCGTAAAGCA TTGGATGATG CGACACTGCA AACTTCTAAA
GCTGCGTTGG AGCGCACGAA AGCAATGAAT GAAAAACGTT TGCTAGAAGA CGAACTGCAA
CATGTTAAGC AAGACTTGGA AGCGGTGAAG GCTGAGAAGA ATGAACTAAA TGCACGATTG
GTGGAAGTGC AGACTAGGTT GCAACAAGTG CAGCGCTCGC CAGCGCAACG ACTGAACAGT
TCTTCGGGTG CCGAATGTTC AACGGCTTCC GGGTACGCCT CGGAAGAATT TCTGTCGGTG
GCAAATCGAC ATCCCAAACT CGAACACGGC TTGCGGGTGG AAAACTCATC TCCGGATCTC
GGCATCGAAA GTGACGCCGG GCGACTGTCC AATCCGGAAA CGAATCCAAG GACTTCCGCT
GCGACCGGTA GCGAGGGGGC GATGAGCCCG GCCAGACCGC TACTTAAGAC GCTCGAGCTG
ACCAAGTCAA TGAGCAACCT GCTGATGGAT CCGAAAGAGG ACGCCAAAAC AGAGCTCAAC
TCGTCCGCTC AGGCCGCCGA TGGCAAATCG GCGATCCACG ACTGTGTCAA AATCGAGGCC
GATTTCGCCG AACTGAAGCG TCGGTACAAG CAAACCCGTC GCCACCTGGA GCTGGCCTAC
GACAGTATTA AGTCGTCCAA CAAGCGCAAG GAGCAGCTAG AACGGGACAT CAAGCAGCAA
ATCCAAAAGA CCAACGTCGT GCTCAAAACG GTCCGCACCA ATATGACCAA CGAGCTGGAG
AAATCCGCAT CCGGTGGGGC GCTTCCCCAA GCCGAAACCG GTCGCAAAAG CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021706313.1 CDS 437..3910 Translation
Target ORF information:
RefSeq Version XM_021850621.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti centrosomin (LOC5570142), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021850621.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGTCCGGAA TTTTCAAATA TACTCCCAAT CGGGCGGCGG CCAGCACGCC AAACCGCCGG
TCGGCGTTCG GACTCGGATT CGGTGGAAGC CCTGGGCAAC AAGATGCCAC CATGGATAAT
TCATATACCA TGGGCTTTCG GTCGCCGTCG ATGAACGCCC TGGCCGGACA GTCCAGTCCT
TGCCAGGGCC GCTCCCTGCG GGAATACGAG GAGCAGATGT CCGCCCTGCG GAAGGAGAAC
TTCAACCTCA AGCTGCGGAT ATACTTCCTG GAGGAGAATG CCGGCATCGG AGGGAACACG
AGCGGAGGTG GTCCGGGTGG TAACGGTGCC GGGCTCGGTC ACGGATCGCC TACGGATGGC
ACGGTTGCGC CGGAGAGTCT GTTCAAGCAG AACATCGATT TGAAGGTGGA AGTGGAGTCC
CTCCGGAAGG ACCTTCAAGA AAAGCAGGAT CTTCTCTGCC AGGCGGCCAA AGCGATGGAG
ATGATGGAGG AAAGCCAACG TAAGGCGGAA CACCACCATC GAGAAGTGCT GAACGACATG
GAGCACCGGT TGGAAATGCT TCAGCAGGAA ATCAAACAGA TGGAAGCGGC TGATCGTCAG
CATCAACAGC AGGAACAACA TCACGGAAAC AATACGACGC GAAGTGCGCT CAACGACACC
AATCTGCTCG ACATCCTGGA GAAGCAGCAC CTAGAGCTGA ACGTAGTCGA TAAGCTGCAA
GCGTTGGATA TGGAGAACGT CATCCGACAG TGTCGGACCC AAAACGAAGA ACTCTGGAGG
CAGATCAGCG ATTTGAACAA GCAACTGGAG GAGAAGGAAC ACAAGCTGAA CACGCTGGAG
GTACAGCTGA GCGAGATGCG GTACGAATGC GCCGAAATGA AGGACAAACT GGAGGAGAAC
GACCGTTCGA CCTCGGATGC TGAGGTCCTG AGGCTCAAGA AAGATCTGTT CCAGGCAAAG
TCGGAACTGG CGGAGAAGCT GTGCCAGTTG GACGACACCG AAGTGAAGCT GAAGGAAAAA
ATGGCCGAGC TATCGAAGAC AGCCAAGATG GTGGAGAAGC TGGTGAAGAC CATCACCGAG
CTGCAGATGG AAAACGCCCG ACTCAAGCGC AATTCGAGCC CCGAGTTGAA ACCCCCCGAT
CCTGTAAAGA AGATCGTCTC GGATCCTGGC AGTGCACAAC TCGAGCAGCC CATCTTCGAC
CACAACCAAC AGATCGTGTC GCAGGAAGAA TACGATAGTC TGTGCCAGAG GCTGAAAGAC
CTTCAAACTA AGAACAACAG TCTCATTCAG CAGCTCACCA GCAGTTCCAA CGACCGCAAC
GAGAACATCA TCATCAAACA GCTCAACGAG GAGGTAATCC AGGCGCGAGA AGAAGCGGAA
AAGGCTCAGC GCTGGCGCAA GGAGTGCGTA GACCTGTGTG CCATCTCAAC AGCTCGGCTC
GAAGAATTGG CTGGCTTTTT GGATTCGTTG CTCAGAAACG ACGAATTCAG TGGTACGCTC
TCGATAGCCC GCCGAAAGGC CATCCGTAAG GCCGTCGATC GCAGCTTGGA CCTCTCGAGG
AGTTTGAACA TGTCCATCTC GGTGACCAGA TTCTCGCTCC CGGAGAACAG CTTTGTCAAC
CTTAGTAGCT TGACTGGGTT TTTGAATGGC ACCGAACAGA GTCTCCTGCT CGAAGAGGAG
GCCAATAAAG AGAACATCGG AAGCGCCGAG AAAGTGATTG CAACTTTGAA GGCAGAGAAT
CGTGAACTAC GGGGACAGTT GGAGAACCGT GGAAGTGCCA AGAAGAATCA TTCGGAAGCC
AGGAGAAAGC TGATTCCATT GATGCCAGAA CCTGTATCGG ACTCGGAGGC GTGGTCTGAA
CCTGATCGGG ATGTTTCCTT GGCACGGATC GGGTTGGAAG AACGGTCTTC CTTGACGAAT
TCCGGTGGCA AAGGGAAACC CATTCCTCGA GCACATGGGA CAGTGTTGCA AGAGTTCAGC
TCTACGTCCG AGAACGAAGG CAACGTGAAT CACTTGAAGA AGCAAGGTGC TGAAGTAAAG
CAGCTACAGG AAGCGGTCCA GGAAAAGGAC AGCAAGATCC TGGAAATCCA GACTCGAATG
GTTGACCTCG ACAATAAGTT GCAGGAGGAA AGAATGAAGG CCTCTAGAAC ACAAGTTGAA
TTGGAAAATA CGCGACATGT GAATCAGCGG CTAGAGAAGG AGAAAAACGA ACAAACGAAG
CGCCTCGAAG AACTAAACCG AGAAATTCAA CAAAAGGATG AACTCATCGA GAAGCTCAAG
AAGGATCGAG ATCAAGCGTT CGTCGATTTA CGGGTGGCGC TCATGAAGCA CGACAGCCTT
AAAGCGGAAT ACCAGGATTG TCAGCAGAAG CACAAGATTC AAATCGATTC GCTTCTGGCA
CAAGAAAGGC AACGGCTGGA GGAGCTTCGT CAAGATCTAA CCGAGTCTTT CAACAATCAG
TTGAAGGCCA AGCAGGCTTC GTTCGATGCT AGTCTGGAGG AAAGATACAT TTCCAAGAAT
ATCTATCTAG AGAAAGTGAA GGAACTTGAA GAAGTTCACA TCAGACTGGA GGATGCTCAT
CTCAATCTAA TGAACATGAC AGAGATTGAG GGCAAAATGA AACAGCAGGT CACGGAAGCG
GAACAATCCG TGCAGAAAAT GCGTAAAGCA TTGGATGATG CGACACTGCA AACTTCTAAA
GCTGCGTTGG AGCGCACGAA AGCAATGAAT GAAAAACGTT TGCTAGAAGA CGAACTGCAA
CATGTTAAGC AAGACTTGGA AGCGGTGAAG GCTGAGAAGA ATGAACTAAA TGCACGATTG
GTGGAAGTGC AGACTAGGTT GCAACAAGTG CAGCGCTCGC CAGCGCAACG ACTGAACAGT
TCTTCGGGTG CCGAATGTTC AACGGCTTCC GGGTACGCCT CGGAAGAATT TCTGTCGGTG
GCAAATCGAC ATCCCAAACT CGAACACGGC TTGCGGGTGG AAAACTCATC TCCGGATCTC
GGCATCGAAA GTGACGCCGG GCGACTGTCC AATCCGGAAA CGAATCCAAG GACTTCCGCT
GCGACCGGTA GCGAGGGGGC GATGAGCCCG GCCAGACCGC TACTTAAGAC GCTCGAGCTG
ACCAAGTCAA TGAGCAACCT GCTGATGGAT CCGAAAGAGG ACGCCAAAAC AGAGCTCAAC
TCGTCCGCTC AGGCCGCCGA TGGCAAATCG GCGATCCACG ACTGTGTCAA AATCGAGGCC
GATTTCGCCG AACTGAAGCG TCGGTACAAG CAAACCCGTC GCCACCTGGA GCTGGCCTAC
GACAGTATTA AGTCGTCCAA CAAGCGCAAG GAGCAGCTAG AACGGGACAT CAAGCAGCAA
ATCCAAAAGA CCAACGTCGT GCTCAAAACG GTCCGCACCA ATATGACCAA CGAGCTGGAG
AAATCCGCAT CCGGTGGGGC GCTTCCCCAA GCCGAAACCG GTCGCAAAAG CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe126418 Clone ID Related Accession (Same CDS sequence) XM_021850619.1 , XM_021850620.1 , XM_021850621.1 , XM_021850617.1 , XM_021850618.1 Accession Version XM_021850617.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3474bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1500393600000 Organism Aedes aegypti(yellow fever mosquito) Product centrosomin isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035109.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Aedes aegypti Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGTCCGGAA TTTTCAAATA TACTCCCAAT CGGGCGGCGG CCAGCACGCC AAACCGCCGG
TCGGCGTTCG GACTCGGATT CGGTGGAAGC CCTGGGCAAC AAGATGCCAC CATGGATAAT
TCATATACCA TGGGCTTTCG GTCGCCGTCG ATGAACGCCC TGGCCGGACA GTCCAGTCCT
TGCCAGGGCC GCTCCCTGCG GGAATACGAG GAGCAGATGT CCGCCCTGCG GAAGGAGAAC
TTCAACCTCA AGCTGCGGAT ATACTTCCTG GAGGAGAATG CCGGCATCGG AGGGAACACG
AGCGGAGGTG GTCCGGGTGG TAACGGTGCC GGGCTCGGTC ACGGATCGCC TACGGATGGC
ACGGTTGCGC CGGAGAGTCT GTTCAAGCAG AACATCGATT TGAAGGTGGA AGTGGAGTCC
CTCCGGAAGG ACCTTCAAGA AAAGCAGGAT CTTCTCTGCC AGGCGGCCAA AGCGATGGAG
ATGATGGAGG AAAGCCAACG TAAGGCGGAA CACCACCATC GAGAAGTGCT GAACGACATG
GAGCACCGGT TGGAAATGCT TCAGCAGGAA ATCAAACAGA TGGAAGCGGC TGATCGTCAG
CATCAACAGC AGGAACAACA TCACGGAAAC AATACGACGC GAAGTGCGCT CAACGACACC
AATCTGCTCG ACATCCTGGA GAAGCAGCAC CTAGAGCTGA ACGTAGTCGA TAAGCTGCAA
GCGTTGGATA TGGAGAACGT CATCCGACAG TGTCGGACCC AAAACGAAGA ACTCTGGAGG
CAGATCAGCG ATTTGAACAA GCAACTGGAG GAGAAGGAAC ACAAGCTGAA CACGCTGGAG
GTACAGCTGA GCGAGATGCG GTACGAATGC GCCGAAATGA AGGACAAACT GGAGGAGAAC
GACCGTTCGA CCTCGGATGC TGAGGTCCTG AGGCTCAAGA AAGATCTGTT CCAGGCAAAG
TCGGAACTGG CGGAGAAGCT GTGCCAGTTG GACGACACCG AAGTGAAGCT GAAGGAAAAA
ATGGCCGAGC TATCGAAGAC AGCCAAGATG GTGGAGAAGC TGGTGAAGAC CATCACCGAG
CTGCAGATGG AAAACGCCCG ACTCAAGCGC AATTCGAGCC CCGAGTTGAA ACCCCCCGAT
CCTGTAAAGA AGATCGTCTC GGATCCTGGC AGTGCACAAC TCGAGCAGCC CATCTTCGAC
CACAACCAAC AGATCGTGTC GCAGGAAGAA TACGATAGTC TGTGCCAGAG GCTGAAAGAC
CTTCAAACTA AGAACAACAG TCTCATTCAG CAGCTCACCA GCAGTTCCAA CGACCGCAAC
GAGAACATCA TCATCAAACA GCTCAACGAG GAGGTAATCC AGGCGCGAGA AGAAGCGGAA
AAGGCTCAGC GCTGGCGCAA GGAGTGCGTA GACCTGTGTG CCATCTCAAC AGCTCGGCTC
GAAGAATTGG CTGGCTTTTT GGATTCGTTG CTCAGAAACG ACGAATTCAG TGGTACGCTC
TCGATAGCCC GCCGAAAGGC CATCCGTAAG GCCGTCGATC GCAGCTTGGA CCTCTCGAGG
AGTTTGAACA TGTCCATCTC GGTGACCAGA TTCTCGCTCC CGGAGAACAG CTTTGTCAAC
CTTAGTAGCT TGACTGGGTT TTTGAATGGC ACCGAACAGA GTCTCCTGCT CGAAGAGGAG
GCCAATAAAG AGAACATCGG AAGCGCCGAG AAAGTGATTG CAACTTTGAA GGCAGAGAAT
CGTGAACTAC GGGGACAGTT GGAGAACCGT GGAAGTGCCA AGAAGAATCA TTCGGAAGCC
AGGAGAAAGC TGATTCCATT GATGCCAGAA CCTGTATCGG ACTCGGAGGC GTGGTCTGAA
CCTGATCGGG ATGTTTCCTT GGCACGGATC GGGTTGGAAG AACGGTCTTC CTTGACGAAT
TCCGGTGGCA AAGGGAAACC CATTCCTCGA GCACATGGGA CAGTGTTGCA AGAGTTCAGC
TCTACGTCCG AGAACGAAGG CAACGTGAAT CACTTGAAGA AGCAAGGTGC TGAAGTAAAG
CAGCTACAGG AAGCGGTCCA GGAAAAGGAC AGCAAGATCC TGGAAATCCA GACTCGAATG
GTTGACCTCG ACAATAAGTT GCAGGAGGAA AGAATGAAGG CCTCTAGAAC ACAAGTTGAA
TTGGAAAATA CGCGACATGT GAATCAGCGG CTAGAGAAGG AGAAAAACGA ACAAACGAAG
CGCCTCGAAG AACTAAACCG AGAAATTCAA CAAAAGGATG AACTCATCGA GAAGCTCAAG
AAGGATCGAG ATCAAGCGTT CGTCGATTTA CGGGTGGCGC TCATGAAGCA CGACAGCCTT
AAAGCGGAAT ACCAGGATTG TCAGCAGAAG CACAAGATTC AAATCGATTC GCTTCTGGCA
CAAGAAAGGC AACGGCTGGA GGAGCTTCGT CAAGATCTAA CCGAGTCTTT CAACAATCAG
TTGAAGGCCA AGCAGGCTTC GTTCGATGCT AGTCTGGAGG AAAGATACAT TTCCAAGAAT
ATCTATCTAG AGAAAGTGAA GGAACTTGAA GAAGTTCACA TCAGACTGGA GGATGCTCAT
CTCAATCTAA TGAACATGAC AGAGATTGAG GGCAAAATGA AACAGCAGGT CACGGAAGCG
GAACAATCCG TGCAGAAAAT GCGTAAAGCA TTGGATGATG CGACACTGCA AACTTCTAAA
GCTGCGTTGG AGCGCACGAA AGCAATGAAT GAAAAACGTT TGCTAGAAGA CGAACTGCAA
CATGTTAAGC AAGACTTGGA AGCGGTGAAG GCTGAGAAGA ATGAACTAAA TGCACGATTG
GTGGAAGTGC AGACTAGGTT GCAACAAGTG CAGCGCTCGC CAGCGCAACG ACTGAACAGT
TCTTCGGGTG CCGAATGTTC AACGGCTTCC GGGTACGCCT CGGAAGAATT TCTGTCGGTG
GCAAATCGAC ATCCCAAACT CGAACACGGC TTGCGGGTGG AAAACTCATC TCCGGATCTC
GGCATCGAAA GTGACGCCGG GCGACTGTCC AATCCGGAAA CGAATCCAAG GACTTCCGCT
GCGACCGGTA GCGAGGGGGC GATGAGCCCG GCCAGACCGC TACTTAAGAC GCTCGAGCTG
ACCAAGTCAA TGAGCAACCT GCTGATGGAT CCGAAAGAGG ACGCCAAAAC AGAGCTCAAC
TCGTCCGCTC AGGCCGCCGA TGGCAAATCG GCGATCCACG ACTGTGTCAA AATCGAGGCC
GATTTCGCCG AACTGAAGCG TCGGTACAAG CAAACCCGTC GCCACCTGGA GCTGGCCTAC
GACAGTATTA AGTCGTCCAA CAAGCGCAAG GAGCAGCTAG AACGGGACAT CAAGCAGCAA
ATCCAAAAGA CCAACGTCGT GCTCAAAACG GTCCGCACCA ATATGACCAA CGAGCTGGAG
AAATCCGCAT CCGGTGGGGC GCTTCCCCAA GCCGAAACCG GTCGCAAAAG CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021706309.1 CDS 615..4088 Translation
Target ORF information:
RefSeq Version XM_021850617.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti centrosomin (LOC5570142), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021850617.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGTCCGGAA TTTTCAAATA TACTCCCAAT CGGGCGGCGG CCAGCACGCC AAACCGCCGG
TCGGCGTTCG GACTCGGATT CGGTGGAAGC CCTGGGCAAC AAGATGCCAC CATGGATAAT
TCATATACCA TGGGCTTTCG GTCGCCGTCG ATGAACGCCC TGGCCGGACA GTCCAGTCCT
TGCCAGGGCC GCTCCCTGCG GGAATACGAG GAGCAGATGT CCGCCCTGCG GAAGGAGAAC
TTCAACCTCA AGCTGCGGAT ATACTTCCTG GAGGAGAATG CCGGCATCGG AGGGAACACG
AGCGGAGGTG GTCCGGGTGG TAACGGTGCC GGGCTCGGTC ACGGATCGCC TACGGATGGC
ACGGTTGCGC CGGAGAGTCT GTTCAAGCAG AACATCGATT TGAAGGTGGA AGTGGAGTCC
CTCCGGAAGG ACCTTCAAGA AAAGCAGGAT CTTCTCTGCC AGGCGGCCAA AGCGATGGAG
ATGATGGAGG AAAGCCAACG TAAGGCGGAA CACCACCATC GAGAAGTGCT GAACGACATG
GAGCACCGGT TGGAAATGCT TCAGCAGGAA ATCAAACAGA TGGAAGCGGC TGATCGTCAG
CATCAACAGC AGGAACAACA TCACGGAAAC AATACGACGC GAAGTGCGCT CAACGACACC
AATCTGCTCG ACATCCTGGA GAAGCAGCAC CTAGAGCTGA ACGTAGTCGA TAAGCTGCAA
GCGTTGGATA TGGAGAACGT CATCCGACAG TGTCGGACCC AAAACGAAGA ACTCTGGAGG
CAGATCAGCG ATTTGAACAA GCAACTGGAG GAGAAGGAAC ACAAGCTGAA CACGCTGGAG
GTACAGCTGA GCGAGATGCG GTACGAATGC GCCGAAATGA AGGACAAACT GGAGGAGAAC
GACCGTTCGA CCTCGGATGC TGAGGTCCTG AGGCTCAAGA AAGATCTGTT CCAGGCAAAG
TCGGAACTGG CGGAGAAGCT GTGCCAGTTG GACGACACCG AAGTGAAGCT GAAGGAAAAA
ATGGCCGAGC TATCGAAGAC AGCCAAGATG GTGGAGAAGC TGGTGAAGAC CATCACCGAG
CTGCAGATGG AAAACGCCCG ACTCAAGCGC AATTCGAGCC CCGAGTTGAA ACCCCCCGAT
CCTGTAAAGA AGATCGTCTC GGATCCTGGC AGTGCACAAC TCGAGCAGCC CATCTTCGAC
CACAACCAAC AGATCGTGTC GCAGGAAGAA TACGATAGTC TGTGCCAGAG GCTGAAAGAC
CTTCAAACTA AGAACAACAG TCTCATTCAG CAGCTCACCA GCAGTTCCAA CGACCGCAAC
GAGAACATCA TCATCAAACA GCTCAACGAG GAGGTAATCC AGGCGCGAGA AGAAGCGGAA
AAGGCTCAGC GCTGGCGCAA GGAGTGCGTA GACCTGTGTG CCATCTCAAC AGCTCGGCTC
GAAGAATTGG CTGGCTTTTT GGATTCGTTG CTCAGAAACG ACGAATTCAG TGGTACGCTC
TCGATAGCCC GCCGAAAGGC CATCCGTAAG GCCGTCGATC GCAGCTTGGA CCTCTCGAGG
AGTTTGAACA TGTCCATCTC GGTGACCAGA TTCTCGCTCC CGGAGAACAG CTTTGTCAAC
CTTAGTAGCT TGACTGGGTT TTTGAATGGC ACCGAACAGA GTCTCCTGCT CGAAGAGGAG
GCCAATAAAG AGAACATCGG AAGCGCCGAG AAAGTGATTG CAACTTTGAA GGCAGAGAAT
CGTGAACTAC GGGGACAGTT GGAGAACCGT GGAAGTGCCA AGAAGAATCA TTCGGAAGCC
AGGAGAAAGC TGATTCCATT GATGCCAGAA CCTGTATCGG ACTCGGAGGC GTGGTCTGAA
CCTGATCGGG ATGTTTCCTT GGCACGGATC GGGTTGGAAG AACGGTCTTC CTTGACGAAT
TCCGGTGGCA AAGGGAAACC CATTCCTCGA GCACATGGGA CAGTGTTGCA AGAGTTCAGC
TCTACGTCCG AGAACGAAGG CAACGTGAAT CACTTGAAGA AGCAAGGTGC TGAAGTAAAG
CAGCTACAGG AAGCGGTCCA GGAAAAGGAC AGCAAGATCC TGGAAATCCA GACTCGAATG
GTTGACCTCG ACAATAAGTT GCAGGAGGAA AGAATGAAGG CCTCTAGAAC ACAAGTTGAA
TTGGAAAATA CGCGACATGT GAATCAGCGG CTAGAGAAGG AGAAAAACGA ACAAACGAAG
CGCCTCGAAG AACTAAACCG AGAAATTCAA CAAAAGGATG AACTCATCGA GAAGCTCAAG
AAGGATCGAG ATCAAGCGTT CGTCGATTTA CGGGTGGCGC TCATGAAGCA CGACAGCCTT
AAAGCGGAAT ACCAGGATTG TCAGCAGAAG CACAAGATTC AAATCGATTC GCTTCTGGCA
CAAGAAAGGC AACGGCTGGA GGAGCTTCGT CAAGATCTAA CCGAGTCTTT CAACAATCAG
TTGAAGGCCA AGCAGGCTTC GTTCGATGCT AGTCTGGAGG AAAGATACAT TTCCAAGAAT
ATCTATCTAG AGAAAGTGAA GGAACTTGAA GAAGTTCACA TCAGACTGGA GGATGCTCAT
CTCAATCTAA TGAACATGAC AGAGATTGAG GGCAAAATGA AACAGCAGGT CACGGAAGCG
GAACAATCCG TGCAGAAAAT GCGTAAAGCA TTGGATGATG CGACACTGCA AACTTCTAAA
GCTGCGTTGG AGCGCACGAA AGCAATGAAT GAAAAACGTT TGCTAGAAGA CGAACTGCAA
CATGTTAAGC AAGACTTGGA AGCGGTGAAG GCTGAGAAGA ATGAACTAAA TGCACGATTG
GTGGAAGTGC AGACTAGGTT GCAACAAGTG CAGCGCTCGC CAGCGCAACG ACTGAACAGT
TCTTCGGGTG CCGAATGTTC AACGGCTTCC GGGTACGCCT CGGAAGAATT TCTGTCGGTG
GCAAATCGAC ATCCCAAACT CGAACACGGC TTGCGGGTGG AAAACTCATC TCCGGATCTC
GGCATCGAAA GTGACGCCGG GCGACTGTCC AATCCGGAAA CGAATCCAAG GACTTCCGCT
GCGACCGGTA GCGAGGGGGC GATGAGCCCG GCCAGACCGC TACTTAAGAC GCTCGAGCTG
ACCAAGTCAA TGAGCAACCT GCTGATGGAT CCGAAAGAGG ACGCCAAAAC AGAGCTCAAC
TCGTCCGCTC AGGCCGCCGA TGGCAAATCG GCGATCCACG ACTGTGTCAA AATCGAGGCC
GATTTCGCCG AACTGAAGCG TCGGTACAAG CAAACCCGTC GCCACCTGGA GCTGGCCTAC
GACAGTATTA AGTCGTCCAA CAAGCGCAAG GAGCAGCTAG AACGGGACAT CAAGCAGCAA
ATCCAAAAGA CCAACGTCGT GCTCAAAACG GTCCGCACCA ATATGACCAA CGAGCTGGAG
AAATCCGCAT CCGGTGGGGC GCTTCCCCAA GCCGAAACCG GTCGCAAAAG CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe126418 Clone ID Related Accession (Same CDS sequence) XM_021850619.1 , XM_021850620.1 , XM_021850621.1 , XM_021850617.1 , XM_021850618.1 Accession Version XM_021850618.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3474bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1500393600000 Organism Aedes aegypti(yellow fever mosquito) Product centrosomin isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035109.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Aedes aegypti Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGTCCGGAA TTTTCAAATA TACTCCCAAT CGGGCGGCGG CCAGCACGCC AAACCGCCGG
TCGGCGTTCG GACTCGGATT CGGTGGAAGC CCTGGGCAAC AAGATGCCAC CATGGATAAT
TCATATACCA TGGGCTTTCG GTCGCCGTCG ATGAACGCCC TGGCCGGACA GTCCAGTCCT
TGCCAGGGCC GCTCCCTGCG GGAATACGAG GAGCAGATGT CCGCCCTGCG GAAGGAGAAC
TTCAACCTCA AGCTGCGGAT ATACTTCCTG GAGGAGAATG CCGGCATCGG AGGGAACACG
AGCGGAGGTG GTCCGGGTGG TAACGGTGCC GGGCTCGGTC ACGGATCGCC TACGGATGGC
ACGGTTGCGC CGGAGAGTCT GTTCAAGCAG AACATCGATT TGAAGGTGGA AGTGGAGTCC
CTCCGGAAGG ACCTTCAAGA AAAGCAGGAT CTTCTCTGCC AGGCGGCCAA AGCGATGGAG
ATGATGGAGG AAAGCCAACG TAAGGCGGAA CACCACCATC GAGAAGTGCT GAACGACATG
GAGCACCGGT TGGAAATGCT TCAGCAGGAA ATCAAACAGA TGGAAGCGGC TGATCGTCAG
CATCAACAGC AGGAACAACA TCACGGAAAC AATACGACGC GAAGTGCGCT CAACGACACC
AATCTGCTCG ACATCCTGGA GAAGCAGCAC CTAGAGCTGA ACGTAGTCGA TAAGCTGCAA
GCGTTGGATA TGGAGAACGT CATCCGACAG TGTCGGACCC AAAACGAAGA ACTCTGGAGG
CAGATCAGCG ATTTGAACAA GCAACTGGAG GAGAAGGAAC ACAAGCTGAA CACGCTGGAG
GTACAGCTGA GCGAGATGCG GTACGAATGC GCCGAAATGA AGGACAAACT GGAGGAGAAC
GACCGTTCGA CCTCGGATGC TGAGGTCCTG AGGCTCAAGA AAGATCTGTT CCAGGCAAAG
TCGGAACTGG CGGAGAAGCT GTGCCAGTTG GACGACACCG AAGTGAAGCT GAAGGAAAAA
ATGGCCGAGC TATCGAAGAC AGCCAAGATG GTGGAGAAGC TGGTGAAGAC CATCACCGAG
CTGCAGATGG AAAACGCCCG ACTCAAGCGC AATTCGAGCC CCGAGTTGAA ACCCCCCGAT
CCTGTAAAGA AGATCGTCTC GGATCCTGGC AGTGCACAAC TCGAGCAGCC CATCTTCGAC
CACAACCAAC AGATCGTGTC GCAGGAAGAA TACGATAGTC TGTGCCAGAG GCTGAAAGAC
CTTCAAACTA AGAACAACAG TCTCATTCAG CAGCTCACCA GCAGTTCCAA CGACCGCAAC
GAGAACATCA TCATCAAACA GCTCAACGAG GAGGTAATCC AGGCGCGAGA AGAAGCGGAA
AAGGCTCAGC GCTGGCGCAA GGAGTGCGTA GACCTGTGTG CCATCTCAAC AGCTCGGCTC
GAAGAATTGG CTGGCTTTTT GGATTCGTTG CTCAGAAACG ACGAATTCAG TGGTACGCTC
TCGATAGCCC GCCGAAAGGC CATCCGTAAG GCCGTCGATC GCAGCTTGGA CCTCTCGAGG
AGTTTGAACA TGTCCATCTC GGTGACCAGA TTCTCGCTCC CGGAGAACAG CTTTGTCAAC
CTTAGTAGCT TGACTGGGTT TTTGAATGGC ACCGAACAGA GTCTCCTGCT CGAAGAGGAG
GCCAATAAAG AGAACATCGG AAGCGCCGAG AAAGTGATTG CAACTTTGAA GGCAGAGAAT
CGTGAACTAC GGGGACAGTT GGAGAACCGT GGAAGTGCCA AGAAGAATCA TTCGGAAGCC
AGGAGAAAGC TGATTCCATT GATGCCAGAA CCTGTATCGG ACTCGGAGGC GTGGTCTGAA
CCTGATCGGG ATGTTTCCTT GGCACGGATC GGGTTGGAAG AACGGTCTTC CTTGACGAAT
TCCGGTGGCA AAGGGAAACC CATTCCTCGA GCACATGGGA CAGTGTTGCA AGAGTTCAGC
TCTACGTCCG AGAACGAAGG CAACGTGAAT CACTTGAAGA AGCAAGGTGC TGAAGTAAAG
CAGCTACAGG AAGCGGTCCA GGAAAAGGAC AGCAAGATCC TGGAAATCCA GACTCGAATG
GTTGACCTCG ACAATAAGTT GCAGGAGGAA AGAATGAAGG CCTCTAGAAC ACAAGTTGAA
TTGGAAAATA CGCGACATGT GAATCAGCGG CTAGAGAAGG AGAAAAACGA ACAAACGAAG
CGCCTCGAAG AACTAAACCG AGAAATTCAA CAAAAGGATG AACTCATCGA GAAGCTCAAG
AAGGATCGAG ATCAAGCGTT CGTCGATTTA CGGGTGGCGC TCATGAAGCA CGACAGCCTT
AAAGCGGAAT ACCAGGATTG TCAGCAGAAG CACAAGATTC AAATCGATTC GCTTCTGGCA
CAAGAAAGGC AACGGCTGGA GGAGCTTCGT CAAGATCTAA CCGAGTCTTT CAACAATCAG
TTGAAGGCCA AGCAGGCTTC GTTCGATGCT AGTCTGGAGG AAAGATACAT TTCCAAGAAT
ATCTATCTAG AGAAAGTGAA GGAACTTGAA GAAGTTCACA TCAGACTGGA GGATGCTCAT
CTCAATCTAA TGAACATGAC AGAGATTGAG GGCAAAATGA AACAGCAGGT CACGGAAGCG
GAACAATCCG TGCAGAAAAT GCGTAAAGCA TTGGATGATG CGACACTGCA AACTTCTAAA
GCTGCGTTGG AGCGCACGAA AGCAATGAAT GAAAAACGTT TGCTAGAAGA CGAACTGCAA
CATGTTAAGC AAGACTTGGA AGCGGTGAAG GCTGAGAAGA ATGAACTAAA TGCACGATTG
GTGGAAGTGC AGACTAGGTT GCAACAAGTG CAGCGCTCGC CAGCGCAACG ACTGAACAGT
TCTTCGGGTG CCGAATGTTC AACGGCTTCC GGGTACGCCT CGGAAGAATT TCTGTCGGTG
GCAAATCGAC ATCCCAAACT CGAACACGGC TTGCGGGTGG AAAACTCATC TCCGGATCTC
GGCATCGAAA GTGACGCCGG GCGACTGTCC AATCCGGAAA CGAATCCAAG GACTTCCGCT
GCGACCGGTA GCGAGGGGGC GATGAGCCCG GCCAGACCGC TACTTAAGAC GCTCGAGCTG
ACCAAGTCAA TGAGCAACCT GCTGATGGAT CCGAAAGAGG ACGCCAAAAC AGAGCTCAAC
TCGTCCGCTC AGGCCGCCGA TGGCAAATCG GCGATCCACG ACTGTGTCAA AATCGAGGCC
GATTTCGCCG AACTGAAGCG TCGGTACAAG CAAACCCGTC GCCACCTGGA GCTGGCCTAC
GACAGTATTA AGTCGTCCAA CAAGCGCAAG GAGCAGCTAG AACGGGACAT CAAGCAGCAA
ATCCAAAAGA CCAACGTCGT GCTCAAAACG GTCCGCACCA ATATGACCAA CGAGCTGGAG
AAATCCGCAT CCGGTGGGGC GCTTCCCCAA GCCGAAACCG GTCGCAAAAG CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021706310.1 CDS 559..4032 Translation
Target ORF information:
RefSeq Version XM_021850618.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti centrosomin (LOC5570142), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021850618.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGTCCGGAA TTTTCAAATA TACTCCCAAT CGGGCGGCGG CCAGCACGCC AAACCGCCGG
TCGGCGTTCG GACTCGGATT CGGTGGAAGC CCTGGGCAAC AAGATGCCAC CATGGATAAT
TCATATACCA TGGGCTTTCG GTCGCCGTCG ATGAACGCCC TGGCCGGACA GTCCAGTCCT
TGCCAGGGCC GCTCCCTGCG GGAATACGAG GAGCAGATGT CCGCCCTGCG GAAGGAGAAC
TTCAACCTCA AGCTGCGGAT ATACTTCCTG GAGGAGAATG CCGGCATCGG AGGGAACACG
AGCGGAGGTG GTCCGGGTGG TAACGGTGCC GGGCTCGGTC ACGGATCGCC TACGGATGGC
ACGGTTGCGC CGGAGAGTCT GTTCAAGCAG AACATCGATT TGAAGGTGGA AGTGGAGTCC
CTCCGGAAGG ACCTTCAAGA AAAGCAGGAT CTTCTCTGCC AGGCGGCCAA AGCGATGGAG
ATGATGGAGG AAAGCCAACG TAAGGCGGAA CACCACCATC GAGAAGTGCT GAACGACATG
GAGCACCGGT TGGAAATGCT TCAGCAGGAA ATCAAACAGA TGGAAGCGGC TGATCGTCAG
CATCAACAGC AGGAACAACA TCACGGAAAC AATACGACGC GAAGTGCGCT CAACGACACC
AATCTGCTCG ACATCCTGGA GAAGCAGCAC CTAGAGCTGA ACGTAGTCGA TAAGCTGCAA
GCGTTGGATA TGGAGAACGT CATCCGACAG TGTCGGACCC AAAACGAAGA ACTCTGGAGG
CAGATCAGCG ATTTGAACAA GCAACTGGAG GAGAAGGAAC ACAAGCTGAA CACGCTGGAG
GTACAGCTGA GCGAGATGCG GTACGAATGC GCCGAAATGA AGGACAAACT GGAGGAGAAC
GACCGTTCGA CCTCGGATGC TGAGGTCCTG AGGCTCAAGA AAGATCTGTT CCAGGCAAAG
TCGGAACTGG CGGAGAAGCT GTGCCAGTTG GACGACACCG AAGTGAAGCT GAAGGAAAAA
ATGGCCGAGC TATCGAAGAC AGCCAAGATG GTGGAGAAGC TGGTGAAGAC CATCACCGAG
CTGCAGATGG AAAACGCCCG ACTCAAGCGC AATTCGAGCC CCGAGTTGAA ACCCCCCGAT
CCTGTAAAGA AGATCGTCTC GGATCCTGGC AGTGCACAAC TCGAGCAGCC CATCTTCGAC
CACAACCAAC AGATCGTGTC GCAGGAAGAA TACGATAGTC TGTGCCAGAG GCTGAAAGAC
CTTCAAACTA AGAACAACAG TCTCATTCAG CAGCTCACCA GCAGTTCCAA CGACCGCAAC
GAGAACATCA TCATCAAACA GCTCAACGAG GAGGTAATCC AGGCGCGAGA AGAAGCGGAA
AAGGCTCAGC GCTGGCGCAA GGAGTGCGTA GACCTGTGTG CCATCTCAAC AGCTCGGCTC
GAAGAATTGG CTGGCTTTTT GGATTCGTTG CTCAGAAACG ACGAATTCAG TGGTACGCTC
TCGATAGCCC GCCGAAAGGC CATCCGTAAG GCCGTCGATC GCAGCTTGGA CCTCTCGAGG
AGTTTGAACA TGTCCATCTC GGTGACCAGA TTCTCGCTCC CGGAGAACAG CTTTGTCAAC
CTTAGTAGCT TGACTGGGTT TTTGAATGGC ACCGAACAGA GTCTCCTGCT CGAAGAGGAG
GCCAATAAAG AGAACATCGG AAGCGCCGAG AAAGTGATTG CAACTTTGAA GGCAGAGAAT
CGTGAACTAC GGGGACAGTT GGAGAACCGT GGAAGTGCCA AGAAGAATCA TTCGGAAGCC
AGGAGAAAGC TGATTCCATT GATGCCAGAA CCTGTATCGG ACTCGGAGGC GTGGTCTGAA
CCTGATCGGG ATGTTTCCTT GGCACGGATC GGGTTGGAAG AACGGTCTTC CTTGACGAAT
TCCGGTGGCA AAGGGAAACC CATTCCTCGA GCACATGGGA CAGTGTTGCA AGAGTTCAGC
TCTACGTCCG AGAACGAAGG CAACGTGAAT CACTTGAAGA AGCAAGGTGC TGAAGTAAAG
CAGCTACAGG AAGCGGTCCA GGAAAAGGAC AGCAAGATCC TGGAAATCCA GACTCGAATG
GTTGACCTCG ACAATAAGTT GCAGGAGGAA AGAATGAAGG CCTCTAGAAC ACAAGTTGAA
TTGGAAAATA CGCGACATGT GAATCAGCGG CTAGAGAAGG AGAAAAACGA ACAAACGAAG
CGCCTCGAAG AACTAAACCG AGAAATTCAA CAAAAGGATG AACTCATCGA GAAGCTCAAG
AAGGATCGAG ATCAAGCGTT CGTCGATTTA CGGGTGGCGC TCATGAAGCA CGACAGCCTT
AAAGCGGAAT ACCAGGATTG TCAGCAGAAG CACAAGATTC AAATCGATTC GCTTCTGGCA
CAAGAAAGGC AACGGCTGGA GGAGCTTCGT CAAGATCTAA CCGAGTCTTT CAACAATCAG
TTGAAGGCCA AGCAGGCTTC GTTCGATGCT AGTCTGGAGG AAAGATACAT TTCCAAGAAT
ATCTATCTAG AGAAAGTGAA GGAACTTGAA GAAGTTCACA TCAGACTGGA GGATGCTCAT
CTCAATCTAA TGAACATGAC AGAGATTGAG GGCAAAATGA AACAGCAGGT CACGGAAGCG
GAACAATCCG TGCAGAAAAT GCGTAAAGCA TTGGATGATG CGACACTGCA AACTTCTAAA
GCTGCGTTGG AGCGCACGAA AGCAATGAAT GAAAAACGTT TGCTAGAAGA CGAACTGCAA
CATGTTAAGC AAGACTTGGA AGCGGTGAAG GCTGAGAAGA ATGAACTAAA TGCACGATTG
GTGGAAGTGC AGACTAGGTT GCAACAAGTG CAGCGCTCGC CAGCGCAACG ACTGAACAGT
TCTTCGGGTG CCGAATGTTC AACGGCTTCC GGGTACGCCT CGGAAGAATT TCTGTCGGTG
GCAAATCGAC ATCCCAAACT CGAACACGGC TTGCGGGTGG AAAACTCATC TCCGGATCTC
GGCATCGAAA GTGACGCCGG GCGACTGTCC AATCCGGAAA CGAATCCAAG GACTTCCGCT
GCGACCGGTA GCGAGGGGGC GATGAGCCCG GCCAGACCGC TACTTAAGAC GCTCGAGCTG
ACCAAGTCAA TGAGCAACCT GCTGATGGAT CCGAAAGAGG ACGCCAAAAC AGAGCTCAAC
TCGTCCGCTC AGGCCGCCGA TGGCAAATCG GCGATCCACG ACTGTGTCAA AATCGAGGCC
GATTTCGCCG AACTGAAGCG TCGGTACAAG CAAACCCGTC GCCACCTGGA GCTGGCCTAC
GACAGTATTA AGTCGTCCAA CAAGCGCAAG GAGCAGCTAG AACGGGACAT CAAGCAGCAA
ATCCAAAAGA CCAACGTCGT GCTCAAAACG GTCCGCACCA ATATGACCAA CGAGCTGGAG
AAATCCGCAT CCGGTGGGGC GCTTCCCCAA GCCGAAACCG GTCGCAAAAG CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe126419 Clone ID Related Accession (Same CDS sequence) XM_021850622.1 Accession Version XM_021850622.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3453bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1500393600000 Organism Aedes aegypti(yellow fever mosquito) Product centrosomin isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035109.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Aedes aegypti Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTGCTT CCAACGTGGA GGAAGGAAGT AACCAGACCT GGGATGAAAC CAACCTGAGT
CAGGTGCGCG AGTGCTTGGC CACCTTCCGC GAGAGCATTG GAAGCCCTGG GCAACAAGAT
GCCACCATGG ATAATTCATA TACCATGGGC TTTCGGTCGC CGTCGATGAA CGCCCTGGCC
GGACAGTCCA GTCCTTGCCA GGGCCGCTCC CTGCGGGAAT ACGAGGAGCA GATGTCCGCC
CTGCGGAAGG AGAACTTCAA CCTCAAGCTG CGGATATACT TCCTGGAGGA GAATGCCGGC
ATCGGAGGGA ACACGAGCGG AGGTGGTCCG GGTGGTAACG GTGCCGGGCT CGGTCACGGA
TCGCCTACGG ATGGCACGGT TGCGCCGGAG AGTCTGTTCA AGCAGAACAT CGATTTGAAG
GTGGAAGTGG AGTCCCTCCG GAAGGACCTT CAAGAAAAGC AGGATCTTCT CTGCCAGGCG
GCCAAAGCGA TGGAGATGAT GGAGGAAAGC CAACGTAAGG CGGAACACCA CCATCGAGAA
GTGCTGAACG ACATGGAGCA CCGGTTGGAA ATGCTTCAGC AGGAAATCAA ACAGATGGAA
GCGGCTGATC GTCAGCATCA ACAGCAGGAA CAACATCACG GAAACAATAC GACGCGAAGT
GCGCTCAACG ACACCAATCT GCTCGACATC CTGGAGAAGC AGCACCTAGA GCTGAACGTA
GTCGATAAGC TGCAAGCGTT GGATATGGAG AACGTCATCC GACAGTGTCG GACCCAAAAC
GAAGAACTCT GGAGGCAGAT CAGCGATTTG AACAAGCAAC TGGAGGAGAA GGAACACAAG
CTGAACACGC TGGAGGTACA GCTGAGCGAG ATGCGGTACG AATGCGCCGA AATGAAGGAC
AAACTGGAGG AGAACGACCG TTCGACCTCG GATGCTGAGG TCCTGAGGCT CAAGAAAGAT
CTGTTCCAGG CAAAGTCGGA ACTGGCGGAG AAGCTGTGCC AGTTGGACGA CACCGAAGTG
AAGCTGAAGG AAAAAATGGC CGAGCTATCG AAGACAGCCA AGATGGTGGA GAAGCTGGTG
AAGACCATCA CCGAGCTGCA GATGGAAAAC GCCCGACTCA AGCGCAATTC GATCGTCTCG
GATCCTGGCA GTGCACAACT CGAGCAGCCC ATCTTCGACC ACAACCAACA GATCGTGTCG
CAGGAAGAAT ACGATAGTCT GTGCCAGAGG CTGAAAGACC TTCAAACTAA GAACAACAGT
CTCATTCAGC AGCTCACCAG CAGTTCCAAC GACCGCAACG AGAACATCAT CATCAAACAG
CTCAACGAGG AGGTAATCCA GGCGCGAGAA GAAGCGGAAA AGGCTCAGCG CTGGCGCAAG
GAGTGCGTAG ACCTGTGTGC CATCTCAACA GCTCGGCTCG AAGAATTGGC TGGCTTTTTG
GATTCGTTGC TCAGAAACGA CGAATTCAGT GGTACGCTCT CGATAGCCCG CCGAAAGGCC
ATCCGTAAGG CCGTCGATCG CAGCTTGGAC CTCTCGAGGA GTTTGAACAT GTCCATCTCG
GTGACCAGAT TCTCGCTCCC GGAGAACAGC TTTGTCAACC TTAGTAGCTT GACTGGGTTT
TTGAATGGCA CCGAACAGAG TCTCCTGCTC GAAGAGGAGG CCAATAAAGA GAACATCGGA
AGCGCCGAGA AAGTGATTGC AACTTTGAAG GCAGAGAATC GTGAACTACG GGGACAGTTG
GAGAACCGTG GAAGTGCCAA GAAGAATCAT TCGGAAGCCA GGAGAAAGCT GATTCCATTG
ATGCCAGAAC CTGTATCGGA CTCGGAGGCG TGGTCTGAAC CTGATCGGGA TGTTTCCTTG
GCACGGATCG GGTTGGAAGA ACGGTCTTCC TTGACGAATT CCGGTGGCAA AGGGAAACCC
ATTCCTCGAG CACATGGGAC AGTGTTGCAA GAGTTCAGCT CTACGTCCGA GAACGAAGGC
AACGTGAATC ACTTGAAGAA GCAAGGTGCT GAAGTAAAGC AGCTACAGGA AGCGGTCCAG
GAAAAGGACA GCAAGATCCT GGAAATCCAG ACTCGAATGG TTGACCTCGA CAATAAGTTG
CAGGAGGAAA GAATGAAGGC CTCTAGAACA CAAGTTGAAT TGGAAAATAC GCGACATGTG
AATCAGCGGC TAGAGAAGGA GAAAAACGAA CAAACGAAGC GCCTCGAAGA ACTAAACCGA
GAAATTCAAC AAAAGGATGA ACTCATCGAG AAGCTCAAGA AGGATCGAGA TCAAGCGTTC
GTCGATTTAC GGGTGGCGCT CATGAAGCAC GACAGCCTTA AAGCGGAATA CCAGGATTGT
CAGCAGAAGC ACAAGATTCA AATCGATTCG CTTCTGGCAC AAGAAAGGCA ACGGCTGGAG
GAGCTTCGTC AAGATCTAAC CGAGTCTTTC AACAATCAGT TGAAGGCCAA GCAGGCTTCG
TTCGATGCTA GTCTGGAGGA AAGATACATT TCCAAGAATA TCTATCTAGA GAAAGTGAAG
GAACTTGAAG AAGTTCACAT CAGACTGGAG GATGCTCATC TCAATCTAAT GAACATGACA
GAGATTGAGG GCAAAATGAA ACAGCAGGTC ACGGAAGCGG AACAATCCGT GCAGAAAATG
CGTAAAGCAT TGGATGATGC GACACTGCAA ACTTCTAAAG CTGCGTTGGA GCGCACGAAA
GCAATGAATG AAAAACGTTT GCTAGAAGAC GAACTGCAAC ATGTTAAGCA AGACTTGGAA
GCGGTGAAGG CTGAGAAGAA TGAACTAAAT GCACGATTGG TGGAAGTGCA GACTAGGTTG
CAACAAGTGC AGCGCTCGCC AGCGCAACGA CTGAACAGTT CTTCGGGTGC CGAATGTTCA
ACGGCTTCCG GGTACGCCTC GGAAGAATTT CTGTCGGTGG CAAATCGACA TCCCAAACTC
GAACACGGCT TGCGGGTGGA AAACTCATCT CCGGATCTCG GCATCGAAAG TGACGCCGGG
CGACTGTCCA ATCCGGAAAC GAATCCAAGG ACTTCCGCTG CGACCGGTAG CGAGGGGGCG
ATGAGCCCGG CCAGACCGCT ACTTAAGACG CTCGAGCTGA CCAAGTCAAT GAGCAACCTG
CTGATGGATC CGAAAGAGGA CGCCAAAACA GAGCTCAACT CGTCCGCTCA GGCCGCCGAT
GGCAAATCGG CGATCCACGA CTGTGTCAAA ATCGAGGCCG ATTTCGCCGA ACTGAAGCGT
CGGTACAAGC AAACCCGTCG CCACCTGGAG CTGGCCTACG ACAGTATTAA GTCGTCCAAC
AAGCGCAAGG AGCAGCTAGA ACGGGACATC AAGCAGCAAA TCCAAAAGAC CAACGTCGTG
CTCAAAACGG TCCGCACCAA TATGACCAAC GAGCTGGAGA AATCCGCATC CGGTGGGGCG
CTTCCCCAAG CCGAAACCGG TCGCAAAAGC TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021706314.1 CDS 342..3794 Translation
Target ORF information:
RefSeq Version XM_021850622.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti centrosomin (LOC5570142), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021850622.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAGTGCTT CCAACGTGGA GGAAGGAAGT AACCAGACCT GGGATGAAAC CAACCTGAGT
CAGGTGCGCG AGTGCTTGGC CACCTTCCGC GAGAGCATTG GAAGCCCTGG GCAACAAGAT
GCCACCATGG ATAATTCATA TACCATGGGC TTTCGGTCGC CGTCGATGAA CGCCCTGGCC
GGACAGTCCA GTCCTTGCCA GGGCCGCTCC CTGCGGGAAT ACGAGGAGCA GATGTCCGCC
CTGCGGAAGG AGAACTTCAA CCTCAAGCTG CGGATATACT TCCTGGAGGA GAATGCCGGC
ATCGGAGGGA ACACGAGCGG AGGTGGTCCG GGTGGTAACG GTGCCGGGCT CGGTCACGGA
TCGCCTACGG ATGGCACGGT TGCGCCGGAG AGTCTGTTCA AGCAGAACAT CGATTTGAAG
GTGGAAGTGG AGTCCCTCCG GAAGGACCTT CAAGAAAAGC AGGATCTTCT CTGCCAGGCG
GCCAAAGCGA TGGAGATGAT GGAGGAAAGC CAACGTAAGG CGGAACACCA CCATCGAGAA
GTGCTGAACG ACATGGAGCA CCGGTTGGAA ATGCTTCAGC AGGAAATCAA ACAGATGGAA
GCGGCTGATC GTCAGCATCA ACAGCAGGAA CAACATCACG GAAACAATAC GACGCGAAGT
GCGCTCAACG ACACCAATCT GCTCGACATC CTGGAGAAGC AGCACCTAGA GCTGAACGTA
GTCGATAAGC TGCAAGCGTT GGATATGGAG AACGTCATCC GACAGTGTCG GACCCAAAAC
GAAGAACTCT GGAGGCAGAT CAGCGATTTG AACAAGCAAC TGGAGGAGAA GGAACACAAG
CTGAACACGC TGGAGGTACA GCTGAGCGAG ATGCGGTACG AATGCGCCGA AATGAAGGAC
AAACTGGAGG AGAACGACCG TTCGACCTCG GATGCTGAGG TCCTGAGGCT CAAGAAAGAT
CTGTTCCAGG CAAAGTCGGA ACTGGCGGAG AAGCTGTGCC AGTTGGACGA CACCGAAGTG
AAGCTGAAGG AAAAAATGGC CGAGCTATCG AAGACAGCCA AGATGGTGGA GAAGCTGGTG
AAGACCATCA CCGAGCTGCA GATGGAAAAC GCCCGACTCA AGCGCAATTC GATCGTCTCG
GATCCTGGCA GTGCACAACT CGAGCAGCCC ATCTTCGACC ACAACCAACA GATCGTGTCG
CAGGAAGAAT ACGATAGTCT GTGCCAGAGG CTGAAAGACC TTCAAACTAA GAACAACAGT
CTCATTCAGC AGCTCACCAG CAGTTCCAAC GACCGCAACG AGAACATCAT CATCAAACAG
CTCAACGAGG AGGTAATCCA GGCGCGAGAA GAAGCGGAAA AGGCTCAGCG CTGGCGCAAG
GAGTGCGTAG ACCTGTGTGC CATCTCAACA GCTCGGCTCG AAGAATTGGC TGGCTTTTTG
GATTCGTTGC TCAGAAACGA CGAATTCAGT GGTACGCTCT CGATAGCCCG CCGAAAGGCC
ATCCGTAAGG CCGTCGATCG CAGCTTGGAC CTCTCGAGGA GTTTGAACAT GTCCATCTCG
GTGACCAGAT TCTCGCTCCC GGAGAACAGC TTTGTCAACC TTAGTAGCTT GACTGGGTTT
TTGAATGGCA CCGAACAGAG TCTCCTGCTC GAAGAGGAGG CCAATAAAGA GAACATCGGA
AGCGCCGAGA AAGTGATTGC AACTTTGAAG GCAGAGAATC GTGAACTACG GGGACAGTTG
GAGAACCGTG GAAGTGCCAA GAAGAATCAT TCGGAAGCCA GGAGAAAGCT GATTCCATTG
ATGCCAGAAC CTGTATCGGA CTCGGAGGCG TGGTCTGAAC CTGATCGGGA TGTTTCCTTG
GCACGGATCG GGTTGGAAGA ACGGTCTTCC TTGACGAATT CCGGTGGCAA AGGGAAACCC
ATTCCTCGAG CACATGGGAC AGTGTTGCAA GAGTTCAGCT CTACGTCCGA GAACGAAGGC
AACGTGAATC ACTTGAAGAA GCAAGGTGCT GAAGTAAAGC AGCTACAGGA AGCGGTCCAG
GAAAAGGACA GCAAGATCCT GGAAATCCAG ACTCGAATGG TTGACCTCGA CAATAAGTTG
CAGGAGGAAA GAATGAAGGC CTCTAGAACA CAAGTTGAAT TGGAAAATAC GCGACATGTG
AATCAGCGGC TAGAGAAGGA GAAAAACGAA CAAACGAAGC GCCTCGAAGA ACTAAACCGA
GAAATTCAAC AAAAGGATGA ACTCATCGAG AAGCTCAAGA AGGATCGAGA TCAAGCGTTC
GTCGATTTAC GGGTGGCGCT CATGAAGCAC GACAGCCTTA AAGCGGAATA CCAGGATTGT
CAGCAGAAGC ACAAGATTCA AATCGATTCG CTTCTGGCAC AAGAAAGGCA ACGGCTGGAG
GAGCTTCGTC AAGATCTAAC CGAGTCTTTC AACAATCAGT TGAAGGCCAA GCAGGCTTCG
TTCGATGCTA GTCTGGAGGA AAGATACATT TCCAAGAATA TCTATCTAGA GAAAGTGAAG
GAACTTGAAG AAGTTCACAT CAGACTGGAG GATGCTCATC TCAATCTAAT GAACATGACA
GAGATTGAGG GCAAAATGAA ACAGCAGGTC ACGGAAGCGG AACAATCCGT GCAGAAAATG
CGTAAAGCAT TGGATGATGC GACACTGCAA ACTTCTAAAG CTGCGTTGGA GCGCACGAAA
GCAATGAATG AAAAACGTTT GCTAGAAGAC GAACTGCAAC ATGTTAAGCA AGACTTGGAA
GCGGTGAAGG CTGAGAAGAA TGAACTAAAT GCACGATTGG TGGAAGTGCA GACTAGGTTG
CAACAAGTGC AGCGCTCGCC AGCGCAACGA CTGAACAGTT CTTCGGGTGC CGAATGTTCA
ACGGCTTCCG GGTACGCCTC GGAAGAATTT CTGTCGGTGG CAAATCGACA TCCCAAACTC
GAACACGGCT TGCGGGTGGA AAACTCATCT CCGGATCTCG GCATCGAAAG TGACGCCGGG
CGACTGTCCA ATCCGGAAAC GAATCCAAGG ACTTCCGCTG CGACCGGTAG CGAGGGGGCG
ATGAGCCCGG CCAGACCGCT ACTTAAGACG CTCGAGCTGA CCAAGTCAAT GAGCAACCTG
CTGATGGATC CGAAAGAGGA CGCCAAAACA GAGCTCAACT CGTCCGCTCA GGCCGCCGAT
GGCAAATCGG CGATCCACGA CTGTGTCAAA ATCGAGGCCG ATTTCGCCGA ACTGAAGCGT
CGGTACAAGC AAACCCGTCG CCACCTGGAG CTGGCCTACG ACAGTATTAA GTCGTCCAAC
AAGCGCAAGG AGCAGCTAGA ACGGGACATC AAGCAGCAAA TCCAAAAGAC CAACGTCGTG
CTCAAAACGG TCCGCACCAA TATGACCAAC GAGCTGGAGA AATCCGCATC CGGTGGGGCG
CTTCCCCAAG CCGAAACCGG TCGCAAAAGC TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe126420 Clone ID Related Accession (Same CDS sequence) XM_021850623.1 Accession Version XM_021850623.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3438bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1500393600000 Organism Aedes aegypti(yellow fever mosquito) Product centrosomin isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035109.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Aedes aegypti Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGTCCGGAA TTTTCAAATA TACTCCCAAT CGGGCGGCGG CCAGCACGCC AAACCGCCGG
TCGGCGTTCG GACTCGGATT CGGTGGAAGC CCTGGGCAAC AAGATGCCAC CATGGATAAT
TCATATACCA TGGGCTTTCG GTCGCCGTCG ATGAACGCCC TGGCCGGACA GTCCAGTCCT
TGCCAGGGCC GCTCCCTGCG GGAATACGAG GAGCAGATGT CCGCCCTGCG GAAGGAGAAC
TTCAACCTCA AGCTGCGGAT ATACTTCCTG GAGGAGAATG CCGGCATCGG AGGGAACACG
AGCGGAGGTG GTCCGGGTGG TAACGGTGCC GGGCTCGGTC ACGGATCGCC TACGGATGGC
ACGGTTGCGC CGGAGAGTCT GTTCAAGCAG AACATCGATT TGAAGGTGGA AGTGGAGTCC
CTCCGGAAGG ACCTTCAAGA AAAGCAGGAT CTTCTCTGCC AGGCGGCCAA AGCGATGGAG
ATGATGGAGG AAAGCCAACG TAAGGCGGAA CACCACCATC GAGAAGTGCT GAACGACATG
GAGCACCGGT TGGAAATGCT TCAGCAGGAA ATCAAACAGA TGGAAGCGGC TGATCGTCAG
CATCAACAGC AGGAACAACA TCACGGAAAC AATACGACGC GAAGTGCGCT CAACGACACC
AATCTGCTCG ACATCCTGGA GAAGCAGCAC CTAGAGCTGA ACGTAGTCGA TAAGCTGCAA
GCGTTGGATA TGGAGAACGT CATCCGACAG TGTCGGACCC AAAACGAAGA ACTCTGGAGG
CAGATCAGCG ATTTGAACAA GCAACTGGAG GAGAAGGAAC ACAAGCTGAA CACGCTGGAG
GTACAGCTGA GCGAGATGCG GTACGAATGC GCCGAAATGA AGGACAAACT GGAGGAGAAC
GACCGTTCGA CCTCGGATGC TGAGGTCCTG AGGCTCAAGA AAGATCTGTT CCAGGCAAAG
TCGGAACTGG CGGAGAAGCT GTGCCAGTTG GACGACACCG AAGTGAAGCT GAAGGAAAAA
ATGGCCGAGC TATCGAAGAC AGCCAAGATG GTGGAGAAGC TGGTGAAGAC CATCACCGAG
CTGCAGATGG AAAACGCCCG ACTCAAGCGC AATTCGATCG TCTCGGATCC TGGCAGTGCA
CAACTCGAGC AGCCCATCTT CGACCACAAC CAACAGATCG TGTCGCAGGA AGAATACGAT
AGTCTGTGCC AGAGGCTGAA AGACCTTCAA ACTAAGAACA ACAGTCTCAT TCAGCAGCTC
ACCAGCAGTT CCAACGACCG CAACGAGAAC ATCATCATCA AACAGCTCAA CGAGGAGGTA
ATCCAGGCGC GAGAAGAAGC GGAAAAGGCT CAGCGCTGGC GCAAGGAGTG CGTAGACCTG
TGTGCCATCT CAACAGCTCG GCTCGAAGAA TTGGCTGGCT TTTTGGATTC GTTGCTCAGA
AACGACGAAT TCAGTGGTAC GCTCTCGATA GCCCGCCGAA AGGCCATCCG TAAGGCCGTC
GATCGCAGCT TGGACCTCTC GAGGAGTTTG AACATGTCCA TCTCGGTGAC CAGATTCTCG
CTCCCGGAGA ACAGCTTTGT CAACCTTAGT AGCTTGACTG GGTTTTTGAA TGGCACCGAA
CAGAGTCTCC TGCTCGAAGA GGAGGCCAAT AAAGAGAACA TCGGAAGCGC CGAGAAAGTG
ATTGCAACTT TGAAGGCAGA GAATCGTGAA CTACGGGGAC AGTTGGAGAA CCGTGGAAGT
GCCAAGAAGA ATCATTCGGA AGCCAGGAGA AAGCTGATTC CATTGATGCC AGAACCTGTA
TCGGACTCGG AGGCGTGGTC TGAACCTGAT CGGGATGTTT CCTTGGCACG GATCGGGTTG
GAAGAACGGT CTTCCTTGAC GAATTCCGGT GGCAAAGGGA AACCCATTCC TCGAGCACAT
GGGACAGTGT TGCAAGAGTT CAGCTCTACG TCCGAGAACG AAGGCAACGT GAATCACTTG
AAGAAGCAAG GTGCTGAAGT AAAGCAGCTA CAGGAAGCGG TCCAGGAAAA GGACAGCAAG
ATCCTGGAAA TCCAGACTCG AATGGTTGAC CTCGACAATA AGTTGCAGGA GGAAAGAATG
AAGGCCTCTA GAACACAAGT TGAATTGGAA AATACGCGAC ATGTGAATCA GCGGCTAGAG
AAGGAGAAAA ACGAACAAAC GAAGCGCCTC GAAGAACTAA ACCGAGAAAT TCAACAAAAG
GATGAACTCA TCGAGAAGCT CAAGAAGGAT CGAGATCAAG CGTTCGTCGA TTTACGGGTG
GCGCTCATGA AGCACGACAG CCTTAAAGCG GAATACCAGG ATTGTCAGCA GAAGCACAAG
ATTCAAATCG ATTCGCTTCT GGCACAAGAA AGGCAACGGC TGGAGGAGCT TCGTCAAGAT
CTAACCGAGT CTTTCAACAA TCAGTTGAAG GCCAAGCAGG CTTCGTTCGA TGCTAGTCTG
GAGGAAAGAT ACATTTCCAA GAATATCTAT CTAGAGAAAG TGAAGGAACT TGAAGAAGTT
CACATCAGAC TGGAGGATGC TCATCTCAAT CTAATGAACA TGACAGAGAT TGAGGGCAAA
ATGAAACAGC AGGTCACGGA AGCGGAACAA TCCGTGCAGA AAATGCGTAA AGCATTGGAT
GATGCGACAC TGCAAACTTC TAAAGCTGCG TTGGAGCGCA CGAAAGCAAT GAATGAAAAA
CGTTTGCTAG AAGACGAACT GCAACATGTT AAGCAAGACT TGGAAGCGGT GAAGGCTGAG
AAGAATGAAC TAAATGCACG ATTGGTGGAA GTGCAGACTA GGTTGCAACA AGTGCAGCGC
TCGCCAGCGC AACGACTGAA CAGTTCTTCG GGTGCCGAAT GTTCAACGGC TTCCGGGTAC
GCCTCGGAAG AATTTCTGTC GGTGGCAAAT CGACATCCCA AACTCGAACA CGGCTTGCGG
GTGGAAAACT CATCTCCGGA TCTCGGCATC GAAAGTGACG CCGGGCGACT GTCCAATCCG
GAAACGAATC CAAGGACTTC CGCTGCGACC GGTAGCGAGG GGGCGATGAG CCCGGCCAGA
CCGCTACTTA AGACGCTCGA GCTGACCAAG TCAATGAGCA ACCTGCTGAT GGATCCGAAA
GAGGACGCCA AAACAGAGCT CAACTCGTCC GCTCAGGCCG CCGATGGCAA ATCGGCGATC
CACGACTGTG TCAAAATCGA GGCCGATTTC GCCGAACTGA AGCGTCGGTA CAAGCAAACC
CGTCGCCACC TGGAGCTGGC CTACGACAGT ATTAAGTCGT CCAACAAGCG CAAGGAGCAG
CTAGAACGGG ACATCAAGCA GCAAATCCAA AAGACCAACG TCGTGCTCAA AACGGTCCGC
ACCAATATGA CCAACGAGCT GGAGAAATCC GCATCCGGTG GGGCGCTTCC CCAAGCCGAA
ACCGGTCGCA AAAGCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021706315.1 CDS 615..4052 Translation
Target ORF information:
RefSeq Version XM_021850623.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti centrosomin (LOC5570142), transcript variant X8, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021850623.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGTCCGGAA TTTTCAAATA TACTCCCAAT CGGGCGGCGG CCAGCACGCC AAACCGCCGG
TCGGCGTTCG GACTCGGATT CGGTGGAAGC CCTGGGCAAC AAGATGCCAC CATGGATAAT
TCATATACCA TGGGCTTTCG GTCGCCGTCG ATGAACGCCC TGGCCGGACA GTCCAGTCCT
TGCCAGGGCC GCTCCCTGCG GGAATACGAG GAGCAGATGT CCGCCCTGCG GAAGGAGAAC
TTCAACCTCA AGCTGCGGAT ATACTTCCTG GAGGAGAATG CCGGCATCGG AGGGAACACG
AGCGGAGGTG GTCCGGGTGG TAACGGTGCC GGGCTCGGTC ACGGATCGCC TACGGATGGC
ACGGTTGCGC CGGAGAGTCT GTTCAAGCAG AACATCGATT TGAAGGTGGA AGTGGAGTCC
CTCCGGAAGG ACCTTCAAGA AAAGCAGGAT CTTCTCTGCC AGGCGGCCAA AGCGATGGAG
ATGATGGAGG AAAGCCAACG TAAGGCGGAA CACCACCATC GAGAAGTGCT GAACGACATG
GAGCACCGGT TGGAAATGCT TCAGCAGGAA ATCAAACAGA TGGAAGCGGC TGATCGTCAG
CATCAACAGC AGGAACAACA TCACGGAAAC AATACGACGC GAAGTGCGCT CAACGACACC
AATCTGCTCG ACATCCTGGA GAAGCAGCAC CTAGAGCTGA ACGTAGTCGA TAAGCTGCAA
GCGTTGGATA TGGAGAACGT CATCCGACAG TGTCGGACCC AAAACGAAGA ACTCTGGAGG
CAGATCAGCG ATTTGAACAA GCAACTGGAG GAGAAGGAAC ACAAGCTGAA CACGCTGGAG
GTACAGCTGA GCGAGATGCG GTACGAATGC GCCGAAATGA AGGACAAACT GGAGGAGAAC
GACCGTTCGA CCTCGGATGC TGAGGTCCTG AGGCTCAAGA AAGATCTGTT CCAGGCAAAG
TCGGAACTGG CGGAGAAGCT GTGCCAGTTG GACGACACCG AAGTGAAGCT GAAGGAAAAA
ATGGCCGAGC TATCGAAGAC AGCCAAGATG GTGGAGAAGC TGGTGAAGAC CATCACCGAG
CTGCAGATGG AAAACGCCCG ACTCAAGCGC AATTCGATCG TCTCGGATCC TGGCAGTGCA
CAACTCGAGC AGCCCATCTT CGACCACAAC CAACAGATCG TGTCGCAGGA AGAATACGAT
AGTCTGTGCC AGAGGCTGAA AGACCTTCAA ACTAAGAACA ACAGTCTCAT TCAGCAGCTC
ACCAGCAGTT CCAACGACCG CAACGAGAAC ATCATCATCA AACAGCTCAA CGAGGAGGTA
ATCCAGGCGC GAGAAGAAGC GGAAAAGGCT CAGCGCTGGC GCAAGGAGTG CGTAGACCTG
TGTGCCATCT CAACAGCTCG GCTCGAAGAA TTGGCTGGCT TTTTGGATTC GTTGCTCAGA
AACGACGAAT TCAGTGGTAC GCTCTCGATA GCCCGCCGAA AGGCCATCCG TAAGGCCGTC
GATCGCAGCT TGGACCTCTC GAGGAGTTTG AACATGTCCA TCTCGGTGAC CAGATTCTCG
CTCCCGGAGA ACAGCTTTGT CAACCTTAGT AGCTTGACTG GGTTTTTGAA TGGCACCGAA
CAGAGTCTCC TGCTCGAAGA GGAGGCCAAT AAAGAGAACA TCGGAAGCGC CGAGAAAGTG
ATTGCAACTT TGAAGGCAGA GAATCGTGAA CTACGGGGAC AGTTGGAGAA CCGTGGAAGT
GCCAAGAAGA ATCATTCGGA AGCCAGGAGA AAGCTGATTC CATTGATGCC AGAACCTGTA
TCGGACTCGG AGGCGTGGTC TGAACCTGAT CGGGATGTTT CCTTGGCACG GATCGGGTTG
GAAGAACGGT CTTCCTTGAC GAATTCCGGT GGCAAAGGGA AACCCATTCC TCGAGCACAT
GGGACAGTGT TGCAAGAGTT CAGCTCTACG TCCGAGAACG AAGGCAACGT GAATCACTTG
AAGAAGCAAG GTGCTGAAGT AAAGCAGCTA CAGGAAGCGG TCCAGGAAAA GGACAGCAAG
ATCCTGGAAA TCCAGACTCG AATGGTTGAC CTCGACAATA AGTTGCAGGA GGAAAGAATG
AAGGCCTCTA GAACACAAGT TGAATTGGAA AATACGCGAC ATGTGAATCA GCGGCTAGAG
AAGGAGAAAA ACGAACAAAC GAAGCGCCTC GAAGAACTAA ACCGAGAAAT TCAACAAAAG
GATGAACTCA TCGAGAAGCT CAAGAAGGAT CGAGATCAAG CGTTCGTCGA TTTACGGGTG
GCGCTCATGA AGCACGACAG CCTTAAAGCG GAATACCAGG ATTGTCAGCA GAAGCACAAG
ATTCAAATCG ATTCGCTTCT GGCACAAGAA AGGCAACGGC TGGAGGAGCT TCGTCAAGAT
CTAACCGAGT CTTTCAACAA TCAGTTGAAG GCCAAGCAGG CTTCGTTCGA TGCTAGTCTG
GAGGAAAGAT ACATTTCCAA GAATATCTAT CTAGAGAAAG TGAAGGAACT TGAAGAAGTT
CACATCAGAC TGGAGGATGC TCATCTCAAT CTAATGAACA TGACAGAGAT TGAGGGCAAA
ATGAAACAGC AGGTCACGGA AGCGGAACAA TCCGTGCAGA AAATGCGTAA AGCATTGGAT
GATGCGACAC TGCAAACTTC TAAAGCTGCG TTGGAGCGCA CGAAAGCAAT GAATGAAAAA
CGTTTGCTAG AAGACGAACT GCAACATGTT AAGCAAGACT TGGAAGCGGT GAAGGCTGAG
AAGAATGAAC TAAATGCACG ATTGGTGGAA GTGCAGACTA GGTTGCAACA AGTGCAGCGC
TCGCCAGCGC AACGACTGAA CAGTTCTTCG GGTGCCGAAT GTTCAACGGC TTCCGGGTAC
GCCTCGGAAG AATTTCTGTC GGTGGCAAAT CGACATCCCA AACTCGAACA CGGCTTGCGG
GTGGAAAACT CATCTCCGGA TCTCGGCATC GAAAGTGACG CCGGGCGACT GTCCAATCCG
GAAACGAATC CAAGGACTTC CGCTGCGACC GGTAGCGAGG GGGCGATGAG CCCGGCCAGA
CCGCTACTTA AGACGCTCGA GCTGACCAAG TCAATGAGCA ACCTGCTGAT GGATCCGAAA
GAGGACGCCA AAACAGAGCT CAACTCGTCC GCTCAGGCCG CCGATGGCAA ATCGGCGATC
CACGACTGTG TCAAAATCGA GGCCGATTTC GCCGAACTGA AGCGTCGGTA CAAGCAAACC
CGTCGCCACC TGGAGCTGGC CTACGACAGT ATTAAGTCGT CCAACAAGCG CAAGGAGCAG
CTAGAACGGG ACATCAAGCA GCAAATCCAA AAGACCAACG TCGTGCTCAA AACGGTCCGC
ACCAATATGA CCAACGAGCT GGAGAAATCC GCATCCGGTG GGGCGCTTCC CCAAGCCGAA
ACCGGTCGCA AAAGCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAe126421 Clone ID Related Accession (Same CDS sequence) XM_021850624.1 Accession Version XM_021850624.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3363bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1500393600000 Organism Aedes aegypti(yellow fever mosquito) Product centrosomin isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035109.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Aedes aegypti Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361ATGGATAATT CATATACCAT GGGCTTTCGG TCGCCGTCGA TGAACGCCCT GGCCGGACAG
TCCAGTCCTT GCCAGGGCCG CTCCCTGCGG GAATACGAGG AGCAGATGTC CGCCCTGCGG
AAGGAGAACT TCAACCTCAA GCTGCGGATA TACTTCCTGG AGGAGAATGC CGGCATCGGA
GGGAACACGA GCGGAGGTGG TCCGGGTGGT AACGGTGCCG GGCTCGGTCA CGGATCGCCT
ACGGATGGCA CGGTTGCGCC GGAGAGTCTG TTCAAGCAGA ACATCGATTT GAAGGTGGAA
GTGGAGTCCC TCCGGAAGGA CCTTCAAGAA AAGCAGGATC TTCTCTGCCA GGCGGCCAAA
GCGATGGAGA TGATGGAGGA AAGCCAACGT AAGGCGGAAC ACCACCATCG AGAAGTGCTG
AACGACATGG AGCACCGGTT GGAAATGCTT CAGCAGGAAA TCAAACAGAT GGAAGCGGCT
GATCGTCAGC ATCAACAGCA GGAACAACAT CACGGAAACA ATACGACGCG AAGTGCGCTC
AACGACACCA ATCTGCTCGA CATCCTGGAG AAGCAGCACC TAGAGCTGAA CGTAGTCGAT
AAGCTGCAAG CGTTGGATAT GGAGAACGTC ATCCGACAGT GTCGGACCCA AAACGAAGAA
CTCTGGAGGC AGATCAGCGA TTTGAACAAG CAACTGGAGG AGAAGGAACA CAAGCTGAAC
ACGCTGGAGG TACAGCTGAG CGAGATGCGG TACGAATGCG CCGAAATGAA GGACAAACTG
GAGGAGAACG ACCGTTCGAC CTCGGATGCT GAGGTCCTGA GGCTCAAGAA AGATCTGTTC
CAGGCAAAGT CGGAACTGGC GGAGAAGCTG TGCCAGTTGG ACGACACCGA AGTGAAGCTG
AAGGAAAAAA TGGCCGAGCT ATCGAAGACA GCCAAGATGG TGGAGAAGCT GGTGAAGACC
ATCACCGAGC TGCAGATGGA AAACGCCCGA CTCAAGCGCA ATTCGAGCCC CGAGTTGAAA
CCCCCCGATC CTGTAAAGAA GATCGTCTCG GATCCTGGCA GTGCACAACT CGAGCAGCCC
ATCTTCGACC ACAACCAACA GATCGTGTCG CAGGAAGAAT ACGATAGTCT GTGCCAGAGG
CTGAAAGACC TTCAAACTAA GAACAACAGT CTCATTCAGC AGCTCACCAG CAGTTCCAAC
GACCGCAACG AGAACATCAT CATCAAACAG CTCAACGAGG AGGTAATCCA GGCGCGAGAA
GAAGCGGAAA AGGCTCAGCG CTGGCGCAAG GAGTGCGTAG ACCTGTGTGC CATCTCAACA
GCTCGGCTCG AAGAATTGGC TGGCTTTTTG GATTCGTTGC TCAGAAACGA CGAATTCAGT
GGTACGCTCT CGATAGCCCG CCGAAAGGCC ATCCGTAAGG CCGTCGATCG CAGCTTGGAC
CTCTCGAGGA GTTTGAACAT GTCCATCTCG GTGACCAGAT TCTCGCTCCC GGAGAACAGC
TTTGTCAACC TTAGTAGCTT GACTGGGTTT TTGAATGGCA CCGAACAGAG TCTCCTGCTC
GAAGAGGAGG CCAATAAAGA GAACATCGGA AGCGCCGAGA AAGTGATTGC AACTTTGAAG
GCAGAGAATC GTGAACTACG GGGACAGTTG GAGAACCGTG GAAGTGCCAA GAAGAATCAT
TCGGAAGCCA GGAGAAAGCT GATTCCATTG ATGCCAGAAC CTGTATCGGA CTCGGAGGCG
TGGTCTGAAC CTGATCGGGA TGTTTCCTTG GCACGGATCG GGTTGGAAGA ACGGTCTTCC
TTGACGAATT CCGGTGGCAA AGGGAAACCC ATTCCTCGAG CACATGGGAC AGTGTTGCAA
GAGTTCAGCT CTACGTCCGA GAACGAAGGC AACGTGAATC ACTTGAAGAA GCAAGGTGCT
GAAGTAAAGC AGCTACAGGA AGCGGTCCAG GAAAAGGACA GCAAGATCCT GGAAATCCAG
ACTCGAATGG TTGACCTCGA CAATAAGTTG CAGGAGGAAA GAATGAAGGC CTCTAGAACA
CAAGTTGAAT TGGAAAATAC GCGACATGTG AATCAGCGGC TAGAGAAGGA GAAAAACGAA
CAAACGAAGC GCCTCGAAGA ACTAAACCGA GAAATTCAAC AAAAGGATGA ACTCATCGAG
AAGCTCAAGA AGGATCGAGA TCAAGCGTTC GTCGATTTAC GGGTGGCGCT CATGAAGCAC
GACAGCCTTA AAGCGGAATA CCAGGATTGT CAGCAGAAGC ACAAGATTCA AATCGATTCG
CTTCTGGCAC AAGAAAGGCA ACGGCTGGAG GAGCTTCGTC AAGATCTAAC CGAGTCTTTC
AACAATCAGT TGAAGGCCAA GCAGGCTTCG TTCGATGCTA GTCTGGAGGA AAGATACATT
TCCAAGAATA TCTATCTAGA GAAAGTGAAG GAACTTGAAG AAGTTCACAT CAGACTGGAG
GATGCTCATC TCAATCTAAT GAACATGACA GAGATTGAGG GCAAAATGAA ACAGCAGGTC
ACGGAAGCGG AACAATCCGT GCAGAAAATG CGTAAAGCAT TGGATGATGC GACACTGCAA
ACTTCTAAAG CTGCGTTGGA GCGCACGAAA GCAATGAATG AAAAACGTTT GCTAGAAGAC
GAACTGCAAC ATGTTAAGCA AGACTTGGAA GCGGTGAAGG CTGAGAAGAA TGAACTAAAT
GCACGATTGG TGGAAGTGCA GACTAGGTTG CAACAAGTGC AGCGCTCGCC AGCGCAACGA
CTGAACAGTT CTTCGGGTGC CGAATGTTCA ACGGCTTCCG GGTACGCCTC GGAAGAATTT
CTGTCGGTGG CAAATCGACA TCCCAAACTC GAACACGGCT TGCGGGTGGA AAACTCATCT
CCGGATCTCG GCATCGAAAG TGACGCCGGG CGACTGTCCA ATCCGGAAAC GAATCCAAGG
ACTTCCGCTG CGACCGGTAG CGAGGGGGCG ATGAGCCCGG CCAGACCGCT ACTTAAGACG
CTCGAGCTGA CCAAGTCAAT GAGCAACCTG CTGATGGATC CGAAAGAGGA CGCCAAAACA
GAGCTCAACT CGTCCGCTCA GGCCGCCGAT GGCAAATCGG CGATCCACGA CTGTGTCAAA
ATCGAGGCCG ATTTCGCCGA ACTGAAGCGT CGGTACAAGC AAACCCGTCG CCACCTGGAG
CTGGCCTACG ACAGTATTAA GTCGTCCAAC AAGCGCAAGG AGCAGCTAGA ACGGGACATC
AAGCAGCAAA TCCAAAAGAC CAACGTCGTG CTCAAAACGG TCCGCACCAA TATGACCAAC
GAGCTGGAGA AATCCGCATC CGGTGGGGCG CTTCCCCAAG CCGAAACCGG TCGCAAAAGC
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021706316.1 CDS 221..3583 Translation
Target ORF information:
RefSeq Version XM_021850624.1 Organism Aedes aegypti(yellow fever mosquito) Definition Aedes aegypti centrosomin (LOC5570142), transcript variant X9, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021850624.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361ATGGATAATT CATATACCAT GGGCTTTCGG TCGCCGTCGA TGAACGCCCT GGCCGGACAG
TCCAGTCCTT GCCAGGGCCG CTCCCTGCGG GAATACGAGG AGCAGATGTC CGCCCTGCGG
AAGGAGAACT TCAACCTCAA GCTGCGGATA TACTTCCTGG AGGAGAATGC CGGCATCGGA
GGGAACACGA GCGGAGGTGG TCCGGGTGGT AACGGTGCCG GGCTCGGTCA CGGATCGCCT
ACGGATGGCA CGGTTGCGCC GGAGAGTCTG TTCAAGCAGA ACATCGATTT GAAGGTGGAA
GTGGAGTCCC TCCGGAAGGA CCTTCAAGAA AAGCAGGATC TTCTCTGCCA GGCGGCCAAA
GCGATGGAGA TGATGGAGGA AAGCCAACGT AAGGCGGAAC ACCACCATCG AGAAGTGCTG
AACGACATGG AGCACCGGTT GGAAATGCTT CAGCAGGAAA TCAAACAGAT GGAAGCGGCT
GATCGTCAGC ATCAACAGCA GGAACAACAT CACGGAAACA ATACGACGCG AAGTGCGCTC
AACGACACCA ATCTGCTCGA CATCCTGGAG AAGCAGCACC TAGAGCTGAA CGTAGTCGAT
AAGCTGCAAG CGTTGGATAT GGAGAACGTC ATCCGACAGT GTCGGACCCA AAACGAAGAA
CTCTGGAGGC AGATCAGCGA TTTGAACAAG CAACTGGAGG AGAAGGAACA CAAGCTGAAC
ACGCTGGAGG TACAGCTGAG CGAGATGCGG TACGAATGCG CCGAAATGAA GGACAAACTG
GAGGAGAACG ACCGTTCGAC CTCGGATGCT GAGGTCCTGA GGCTCAAGAA AGATCTGTTC
CAGGCAAAGT CGGAACTGGC GGAGAAGCTG TGCCAGTTGG ACGACACCGA AGTGAAGCTG
AAGGAAAAAA TGGCCGAGCT ATCGAAGACA GCCAAGATGG TGGAGAAGCT GGTGAAGACC
ATCACCGAGC TGCAGATGGA AAACGCCCGA CTCAAGCGCA ATTCGAGCCC CGAGTTGAAA
CCCCCCGATC CTGTAAAGAA GATCGTCTCG GATCCTGGCA GTGCACAACT CGAGCAGCCC
ATCTTCGACC ACAACCAACA GATCGTGTCG CAGGAAGAAT ACGATAGTCT GTGCCAGAGG
CTGAAAGACC TTCAAACTAA GAACAACAGT CTCATTCAGC AGCTCACCAG CAGTTCCAAC
GACCGCAACG AGAACATCAT CATCAAACAG CTCAACGAGG AGGTAATCCA GGCGCGAGAA
GAAGCGGAAA AGGCTCAGCG CTGGCGCAAG GAGTGCGTAG ACCTGTGTGC CATCTCAACA
GCTCGGCTCG AAGAATTGGC TGGCTTTTTG GATTCGTTGC TCAGAAACGA CGAATTCAGT
GGTACGCTCT CGATAGCCCG CCGAAAGGCC ATCCGTAAGG CCGTCGATCG CAGCTTGGAC
CTCTCGAGGA GTTTGAACAT GTCCATCTCG GTGACCAGAT TCTCGCTCCC GGAGAACAGC
TTTGTCAACC TTAGTAGCTT GACTGGGTTT TTGAATGGCA CCGAACAGAG TCTCCTGCTC
GAAGAGGAGG CCAATAAAGA GAACATCGGA AGCGCCGAGA AAGTGATTGC AACTTTGAAG
GCAGAGAATC GTGAACTACG GGGACAGTTG GAGAACCGTG GAAGTGCCAA GAAGAATCAT
TCGGAAGCCA GGAGAAAGCT GATTCCATTG ATGCCAGAAC CTGTATCGGA CTCGGAGGCG
TGGTCTGAAC CTGATCGGGA TGTTTCCTTG GCACGGATCG GGTTGGAAGA ACGGTCTTCC
TTGACGAATT CCGGTGGCAA AGGGAAACCC ATTCCTCGAG CACATGGGAC AGTGTTGCAA
GAGTTCAGCT CTACGTCCGA GAACGAAGGC AACGTGAATC ACTTGAAGAA GCAAGGTGCT
GAAGTAAAGC AGCTACAGGA AGCGGTCCAG GAAAAGGACA GCAAGATCCT GGAAATCCAG
ACTCGAATGG TTGACCTCGA CAATAAGTTG CAGGAGGAAA GAATGAAGGC CTCTAGAACA
CAAGTTGAAT TGGAAAATAC GCGACATGTG AATCAGCGGC TAGAGAAGGA GAAAAACGAA
CAAACGAAGC GCCTCGAAGA ACTAAACCGA GAAATTCAAC AAAAGGATGA ACTCATCGAG
AAGCTCAAGA AGGATCGAGA TCAAGCGTTC GTCGATTTAC GGGTGGCGCT CATGAAGCAC
GACAGCCTTA AAGCGGAATA CCAGGATTGT CAGCAGAAGC ACAAGATTCA AATCGATTCG
CTTCTGGCAC AAGAAAGGCA ACGGCTGGAG GAGCTTCGTC AAGATCTAAC CGAGTCTTTC
AACAATCAGT TGAAGGCCAA GCAGGCTTCG TTCGATGCTA GTCTGGAGGA AAGATACATT
TCCAAGAATA TCTATCTAGA GAAAGTGAAG GAACTTGAAG AAGTTCACAT CAGACTGGAG
GATGCTCATC TCAATCTAAT GAACATGACA GAGATTGAGG GCAAAATGAA ACAGCAGGTC
ACGGAAGCGG AACAATCCGT GCAGAAAATG CGTAAAGCAT TGGATGATGC GACACTGCAA
ACTTCTAAAG CTGCGTTGGA GCGCACGAAA GCAATGAATG AAAAACGTTT GCTAGAAGAC
GAACTGCAAC ATGTTAAGCA AGACTTGGAA GCGGTGAAGG CTGAGAAGAA TGAACTAAAT
GCACGATTGG TGGAAGTGCA GACTAGGTTG CAACAAGTGC AGCGCTCGCC AGCGCAACGA
CTGAACAGTT CTTCGGGTGC CGAATGTTCA ACGGCTTCCG GGTACGCCTC GGAAGAATTT
CTGTCGGTGG CAAATCGACA TCCCAAACTC GAACACGGCT TGCGGGTGGA AAACTCATCT
CCGGATCTCG GCATCGAAAG TGACGCCGGG CGACTGTCCA ATCCGGAAAC GAATCCAAGG
ACTTCCGCTG CGACCGGTAG CGAGGGGGCG ATGAGCCCGG CCAGACCGCT ACTTAAGACG
CTCGAGCTGA CCAAGTCAAT GAGCAACCTG CTGATGGATC CGAAAGAGGA CGCCAAAACA
GAGCTCAACT CGTCCGCTCA GGCCGCCGAT GGCAAATCGG CGATCCACGA CTGTGTCAAA
ATCGAGGCCG ATTTCGCCGA ACTGAAGCGT CGGTACAAGC AAACCCGTCG CCACCTGGAG
CTGGCCTACG ACAGTATTAA GTCGTCCAAC AAGCGCAAGG AGCAGCTAGA ACGGGACATC
AAGCAGCAAA TCCAAAAGAC CAACGTCGTG CTCAAAACGG TCCGCACCAA TATGACCAAC
GAGCTGGAGA AATCCGCATC CGGTGGGGCG CTTCCCCAAG CCGAAACCGG TCGCAAAAGC
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
-
PubMed
Genome sequence of Aedes aegypti, a major arbovirus vector.
Science (New York, N.Y.)316(5832)1718-23(2007 Jun)
Nene V,Wortman JR,Lawson D,Haas B,Kodira C,Tu ZJ,Loftus B,Xi Z,Megy K,Grabherr M,Ren Q,Zdobnov EM,Lobo NF,Campbell KS,Brown SE,Bonaldo MF,Zhu J,Sinkins SP,Hogenkamp DG,Amedeo P,Arensburger P,Atkinson PW,Bidwell S,Biedler J,Birney E,Bruggner RV,Costas J,Coy MR,Crabtree J,Crawford M,Debruyn B,Decaprio D,Eiglmeier K,Eisenstadt E,El-Dorry H,Gelbart WM,Gomes SL,Hammond M,Hannick LI,Hogan JR,Holmes MH,Jaffe D,Johnston JS,Kennedy RC,Koo H,Kravitz S,Kriventseva EV,Kulp D,Labutti K,Lee E,Li S,Lovin DD,Mao C,Mauceli E,Menck CF,Miller JR,Montgomery P,Mori A,Nascimento AL,Naveira HF,Nusbaum C,O'leary S,Orvis J,Pertea M,Quesneville H,Reidenbach KR,Rogers YH,Roth CW,Schneider JR,Schatz M,Shumway M,Stanke M,Stinson EO,Tubio JM,Vanzee JP,Verjovski-Almeida S,Werner D,White O,Wyder S,Zeng Q,Zhao Q,Zhao Y,Hill CA,Raikhel AS,Soares MB,Knudson DL,Lee NH,Galagan J,Salzberg SL,Paulsen IT,Dimopoulos G,Collins FH,Birren B,Fraser-Liggett CM,Severson DW
-
-
Most Popular Services
-
Services & Products
-
News & Blogs
- Scientists show how diet reverses diabetes
- Developing a Much-Needed New Shot for Lyme Disease with mRNA
- FDA Authorized GenScript's cPass™ Kit
- Driving Antibody Development through Improved Engineering Technologies
- Impact of Counter-ion in Peptide on Studies in Different Research Fields
- Thousands of novel protein families identified in the human body
- Antibody-drug Conjugate, a Potential Trojan Horse to Fight Cancer
- CRISPR/Cas9 Editing: T Cell Engineering for Immunotherapies
-
-
-
PubMed
-
